Dissertations / Theses on the topic 'Bacillus cereu'
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COLLA, Francesca. "Study of Bacillus thuringiensis behaviour in food environment by genome – wide transcriptome analysis." Doctoral thesis, Università degli Studi di Verona, 2010. http://hdl.handle.net/11562/343904.
Full textBacillus thuringiensis is a spore forming bacterium that belongs to the Bacillus cereus family. It was first characterized for its ability to produce a parasporal crystal active against several insect species, especially Lepidoptera, Diptera, and Coleoptera. Due to its insect activities it is worldwide used in forestry and agriculture to control pests. Recent studies showed that most of the genetic determinants for B. cereus virulence, such as haemolysin BL (HBL), non haemolytic enterotoxin (NHE), cytotoxin K, and bc-D-ENT enterotoxin, are harboured by B. thuringiensis strains. Since B. thuringiensis can contaminate food, being residual in spore form after treatment in the fields, it is ever more urgent to deepen investigate the potential risks arising from the presence of B. thuringiensis in food industry. Phylogenetic studies based on the analysis of chromosomal genes bring controversial results, and it is unclear whether B. cereus and B. thuringiensis are varieties of the same species or different species (Ivanova et al. 2003). Hence, what may seem to be a minor problem of taxonomy may therefore have serious implications for virulence and pathogenicity. This work of thesis was aimed to achieve a deeper scientific information on the food-associated Bacilli, taking the advantage of new genome based molecular approaches, focusing the attention on B. thuringiensis strains used as commercial biopesticides. The in vitro pathogenic profile of ten commercial B. thuringiensis strains, was characterised by the high distribution of the nhe, hbl, bceT and cytK genes, coding for respectively four B. cereus associated virulence factors. Enterotoxin genes were detected by PCR in all the strains analyzed. RT-PCR analysis confirmed the enterotoxin genes expression. Toxin productions was detected by RPLA test in the strains belonging to the widely used subsp. kurstaki. These features and the difficult discrimination between B. thuringiensis and B. cereus, suggested that the role of B. thuringiensis in outbreaks of foodborne disease may have been underestimated. The development of a vegetable based food model, that would allow to asses the behaviour of B. thuringiensis spores, after the simulation of an industrial processing treatment, was an important point in this study. The analysis of Bacillus spore envelope, and its ability to interact with food environment, have been performed using SEM and SEM X-ray microanalysis applied to the food model proposed. In more detail, particular attention was devoted to morphological and chemical changes of B. thuringiensis spores during germination process in food. We observed a rapid evolution of the B. thuringiensis biological cycle compared to that of other spore forming bacteria like Clostridium spp. (Bassi et al. 2008, personal communication). Interesting was that only two hours after spore activation, cell outgrowth was completed and cell division was at the maximum level. RT-qPCR analysis were performed to quantify the expression, in food, of the major virulence genes involved in B. cereus-associated food borne disease. Toxin mRNAs were detected, in variable amounts, at all investigated growth stages of B. thuringiensis, with a strong increase during the log phase of microorganism growth. Although no information on the B. cereus toxin expression in food are available, previous in vitro studies on B. cereus enterotoxins production, reported that the highest toxin level is achieved during the late log/early stationary phase. The production of the L2 component of HBL enterotoxin, involved in the diarrhoeal syndrome was detected in food model, even in low amount, during the early log phase. We concluded that B. thuringiensis can complete an entire life cycle in food systems after an industrial processing simulation, producing enterotoxins as observed in broth cultures. Given this finding, the need to identify systems for manage the risks associated with B. thuringiensis in industrial fields has became clear. An experimental approach was described in this work of thesis. Identification and inactivation of general systems for regulating virulence, through null mutants construction, were considered to evaluate changes in growth performance, cellular metabolism and toxins expression, in the studied microorganism. Besides homologous recombination, the mobility mechanism of group II introns were assessed to generate highly specific chromosomal gene disruption in B. thuringiensis. A novel approach and several experiments were performed to achieve the desired chromosomal inactivation, however no attempts gave the expected results. In order to manage risks associated with B. thuringiensis outgrowth in foodstuffs, and to gain more information on its life cycle, a microarray transcriptome analysis of B. thuringiensis in four different stages of the biological cycle, was performed from dormant spore to vegetative/sporulating cells. We could emphasized that mRNA is a component of bacterial spores. We discovered that spores are equipped with a large amount of transcripts probably useful to front the next steps of outgrowth. Dormant spores contained populations of ribosomes; during the first 40 minutes after spore activation, rate of both rRNA and ribosomal proteins synthesis strongly increased. A basic and strong activation of polyfunctional genes seemed to begin in germinant spores: most of the genes involved in the metabolic activity (house-keeping genes, translation initiation factor, ribosomal proteins, and elongation factors) were overrepresented at this time in microarray analysis. A large number of transcripts for protein involved in the regulation of different biological process, including resistance to different antimicrobial compounds and oxidative stress agents, were found to be present in B. thuringiensis vegetative cells. We hypothesized that B. thuringiensis cells may activate these systems in response to external stimuli for cell defence and adaptation to changing environmental conditions in food model. The transcripts for germination proteins (ger type) found in spore, are an index of the expression of this genes in previous sporulation stage and suggested the importance during dormancy, to monitor the environment for proper outgrowth conditions. This finding could explain the ability of B. cereus-like microrganism to occupy and complete a full life cycle within several different environmental niches. According to literature data, all the associated virulence genes, represented in microarray analysis, were up-regulated especially during the late stage of cell growth. Transcriptomic has been demonstrated to be not only a powerful tool to study the germination and outgrowth of B. thuringiensis spores, but also a suitable method to assess the environmental response to bacterial pathogens in food. Data obtained, provide new basic knowledge on Bacillus cereus group. These data extends our knowledge on the metabolic versatility of B. thuringiensis and also added to our view of virulence traits of this potential food-pathogen. Since B. thuringiensis is widely used and popular in biological farming, a careful monitoring of the strains used should be justified. Literature reports widespread the risks associated with the food-pathogen B. cereus, but those related to B. thuringiensis are often underestimated. From data obtained in this study we could assume that B. thuringiensis could actually be responsible for many of the food borne outbreaks previously attributed to B. cereus; taking this enterotoxigenic potential into account, as well as the fact that B. thuringiensis cannot be separated from B. cereus at the chromosomal level, food producers and food authorities, responsible for food safety, should consider the risk of B. thuringiensis insecticide residue in the food chain.
Tan, Yoke-Cheng. "Bacillus cereus virulence mechanisms." Thesis, University of Cambridge, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.614215.
Full textAllouane, Gounina Rabia. "Effet de la température de formation des spores de Bacillus cereus sur leur germination." Aix-Marseille 3, 2007. http://www.theses.fr/2007AIX30083.
Full textBacterial spores are ubiquitous in the environment and frequently contaminate food The history of spore forming bacteria in their native habitats is largely unknown. Sporulation conditions have ther an influence on spore properties and an incidence on microbiological food safety? Germination is a key step in the transformation of the dormant spore into vegetative cell metabolicly active. The objective of this thesis is to study the impact ofsporulation temperature on the germination of spores of Bacillus cereus, an agent of frequent human food poisonings. Our results showed that the spores formed at low temperatures (15°C for two psychrotrophic strains LM9 and D15 and 20°C for the type-strain ATCC 14579) had an anhanced germination capacities in response to the nutrient germinant inosine and L-alanine than those of spores formed at 37°C. Spores formed at 37°C had also a much better resistance to a heat treatment at 90°C, resistance being attributed to higher contents afdipicolinic acid and of divalent cations. The spore hydrophobicity, expressing the capacity of spore adhesion, was more marked when the spores were formed at 15°C and the observations under the electron microscope have showed that the morphology ofexosporium, to which the hydrophobic character of the spores is mainly attributed, was also affected. The temperature ofsporulation affects both the early phase of germination (marked by the release ofdipicolinic acid), and the late phase corresponding to cortex lysis The study by electronic microscopy of the ultrastructure of spores formed at various temperatures showed important differences in the morphology of coats, external spore layers known to be implicated in early and late phases of the germination process. Clear differences in the composition in proteins of coats extracts of spores formed at 15°C and 37°C were detected by electrophoretic analysis. Our results suggest that the Sporulation temperature affects the process of coats proteins assembly, and consequentely the capacity of spores to germinate
Nadal, André Luciano. "Busca e caracterização in silico de RNAs não codificadores em isolados de Bacillus anthracis, Bacillus cereus e Bacillus thuringIensis (Bacillus cereus sensu lato)." Universidade Estadual de Londrina, EMBRAPA, Instituto Agronômico do Paraná, 2015. http://www.bibliotecadigital.uel.br/document/?code=vtls000213687.
Full textThe Bacillus cereus group gathers microorganisms of great economic importance and also at medical and biodefense issues, this is reflected in the fact that it contains a large number of sequenced genomes closely related organisms as Bacillus anthracis, B. cereus and B. thuringiensis. Current bioinformatics tools applied to this set of information provides us great opportunity to complete comparative genomic analyzes. Members of this group has plenty of its specificity attributed to their plasmids, which vary in size and number. Their chromosomes have a high level of synteny with limited differences in genetic content, which makes questionable the interpretations on speciation to the members of this group. This work aims to contribute to the clarification of the genetic proximity between these three constituents of the cereus group by identification and characterization of non-coding RNAs, contributing in taxonomic understanding, the understanding of virulence factors in host pathogen interaction and ecological interactions like the behavior of B. thuringiensis in the control of agricultural pests and disease vectors. With the purpose of identifying non-coding RNAs, it was produced a data set consisting of entire genomes of interest organisms, 9 B. anthracis, 13 B. cereus, 12 B. thuringiensis and also 1 B. weihenstephanensis, a total of 35 GenBank format genomes obtained from GOLD and NCBI databases. These genomes were classified considering the assembling methodology, after sequencing process, annotation type, manual or automatic as well the publications impact, resulting in 26 finally selected genomes. Data were then processed using Artemis V.16.0.0 program, for extraction of intergenic regions and submitted to three different methods of computational inference for non-coding RNAs identification. The first method, processing with Infernal V.1.1 / Rfam database V.11.0, the second was processing through sRNAscanner V.1.9, and finally a comparative analysis with the UTFPR database which gathers ncRNA literature based on Non-coding RNA Databases Resource (NRDR). Data from these three analyzes were loaded into a PostgreSQL V.9.1 database. Relational tables were created to the characterization of the obtained sequences. The tables contained all 2208 Rfam families data, grouping public FTP and Rfam institute SANGER sites data. As supporting means to search and characterization, complete genomes to the related organisms were loaded into a data base. Then the results of those three methods of discovery were searched through direct queries on the created database (SQL language) by grouping contiguous overlap regions. Thus, 181 ncRNA candidates were identified and further characterized by species, strain and ncRNA family. 181 ncRNA candidates were identified, distributed in 12 unique families to either group: B. anthracis (2), B. cereus (5) and B. thuringiensis (5). Later, candidates were characterized by species and strain on 23 identified families.
Leoff, Christine. "Secondary cell wall polysaccharides in Bacillus anthracis and Bacillus cereus strains." [S.l. : s.n.], 2009.
Find full textBock, Stefanie. "Zellspezifische Wirkung von Bacillus-cereus-Zytotoxinen." Diss., lmu, 2010. http://d-nb.info/1000931854/34.
Full textZygouri, Christianna. "Bacillus cereus Ferric Uptake Regulator (Fur)." Thesis, University of Cambridge, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.612340.
Full textHeilkenbrinker, Uta. "Wirkungsweise des Bacillus cereus Enterotoxins Nhe." Diss., Ludwig-Maximilians-Universität München, 2014. http://nbn-resolving.de/urn:nbn:de:bvb:19-166522.
Full textWei, Jie. "Effect of high hydrostatic pressure and temperature on the inactivation and germination of Bacillus cereus spores." Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file, 120 p, 2007. http://proquest.umi.com/pqdweb?did=1407493931&sid=14&Fmt=2&clientId=8331&RQT=309&VName=PQD.
Full textMajed, Racha. "Etude de Eps1 et Eps2, deux exopolysaccharides du biofilm chez Bacillus thuringiensis." Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLS107/document.
Full textExopolysaccharides - polymers of exported sugars - are involved in essential functions of bacterial physiology. Exopolysaccharides are in fact major components, of the bacterial wall, secondary polymers attached to this wall, the capsules, and finally the biofilm’s matrix. Bacillus thuringiensis is an entomopathogenic bacterium of the cereus group, capable of forming a biofilm at the air-liquid interface. This biofilm has two distinct structures: a floating pellicle on the culture medium and, at the periphery, in continuity with the pellicle, a ring adhering to the solid surfaces. To identify the exopolysaccharides, which constitute the biofilm matrix in B. thuringiensis, I investigated the various chromosomal loci in the sequenced genome of B. thuringiensis strain 407. Two loci have been identified and were called eps1 and eps2. To date, no role in the formation of biofilms in B. thuringiensis had been attributed to eps1 locus. Our data showed that the exopolysaccharide Eps1, depending on the eps1 locus, forms a capsule in the stationary phase and in hypoxic conditions. This capsule, which has significant adhesive properties on biotic and abiotic surfaces, allows adhesion of the biofilm to the solid surfaces, thus forming of the biofilm ring. Consistently with these results, we observed that Eps1 is present only in the biofilm ring. We found that Eps2 exopolysaccharide depending on the eps2 locus is an essential element of the biofilm matrix and is necessary for the formation of the pellicle. We have shown using fluorescent markers that two mutant strains capable of producing only type of exopolysaccharides Eps1 or Eps2 are distributed heterogeneously in the biofilm when they are cocultured. The mutant strain producing only Eps1 is localized in the ring while the mutant strain producing only Eps2 is located in the pellicle. Our data show that the transcription of eps1 and eps2 loci is regulated identically by the same set of regulators. The SinR repressor, which controls the formation of the protein component of the biofilm’s matrix in B. thuringiensis, has no effect on the transcription of eps1 and eps2 in this bacterium. The transcription is activated by Spo0A and repressed by AbrB. The CodY regulator represses the expression of these loci in exponential phase, but activates it in the late stationary phase. Our results also show a negative feedback from Eps2 on the production of Eps1, suggesting the existence of a switch, allowing only one of these exopolysaccharides to be produced in an isolated cell
Ribeiro, Maria Cecília Enes. "Adesão e formação de biofilme por Bacillus cereus em aço inoxidável." [s.n.], 2015. http://repositorio.unicamp.br/jspui/handle/REPOSIP/255191.
Full textTese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos
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Resumo: O objetivo geral deste trabalho foi avaliar o efeito de diferentes matrizes na adesão e formação de biofilme em aço inoxidável por Bacillus cereus, bem como avaliar a eficiência dos procedimentos de higienização no controle de biofilmes de esporos desse micro-organismo. Nas duas primeiras etapas, avaliou-se a capacidade de adesão e formação de biofilme por B. cereus em aço inoxidável, com e sem prévio condicionamento da superfície, utilizando-se água, leite UHT desnatado e integral como matrizes e quatro diferentes tipos de inóculos, pool de células vegetativas de B. cereus isolados da indústria láctea, pool de esporos de B. cereus isolados da indústria láctea, células vegetativas da cepa de B. cereus ATCC 14579 e esporos da cepa de B. cereus ATCC 14579. Na terceira etapa do trabalho avaliou-se a influência da matriz condicionante (água e leite UHT integral), do meio de inoculação do pool de esporos de B. cereus (água e leite UHT integral) e do tempo de exposição (5 min (0,08h), 10, 24, 48 e 72 horas) sobre a adesão e formação de biofilme por B. cereus em aço inoxidável. Na quarta etapa, avaliou-se a eficiência de nove procedimentos de higienização na remoção dos biofilmes formados pelo pool de esporos de B. cereus em aço inoxidável. Todos os experimentos foram repetidos três vezes e os dados estatisticamente avaliados. A hidrofobicidade e o potencial zeta das superfícies dos esporos também foram avaliados. Os resultados das duas primeiras etapas indicaram que o pool de esporos de B. cereus isolados de indústria láctea apresentou a maior capacidade de adesão e formação de biofilme em aço inoxidável quando comparado aos outros tipos de inóculos, em todas as condições avaliadas. O maior grau de adesão de esporos de B. cereus (4,93 log UFC/cm2) foi observado ao se utilizar leite integral como matriz condicionante do aço inoxidável. Entretanto, comparando-se todas as matrizes, a menor adesão (3,01 log UFC/cm2) foi observada quando o pool de esporos de B cereus foi veiculado no leite integral sem prévio condicionamento da superfície. Na terceira etapa do trabalho observou-se que a adesão e formação de biofilme pelo pool de esporos de B. cereus foi maior quando inoculados em água, independente das matrizes de condicionamento. A adesão de B. cereus aumentou 1,02 e 0,3 log UFC/cm2 ao longo do tempo de exposição, quando o pool de esporos de B. cereus foi inoculado em água e leite integral, respectivamente. O biofilme de esporos veiculados na água apresentou maior resistência aos procedimentos de higienização. A sanitização com hipoclorito de sódio foi mais eficiente na remoção dos biofilmes quando comparada ao ácido peracético. O pool de esporos de B. cereus isolados da indústria láctea foi altamente hidrofóbico e apresentou carga negativa em uma ampla faixa de pH, com ponto isoelétrico de aproximadamente 3,0. Os esporos de B. cereus isolados da indústria láctea apresentaram maior capacidade de adesão ao aço inoxidável quando comparados aos outros inóculos avaliados, o que pode estar relacionado à alta hidrofobicidade e a baixa carga de superfície dos esporos
Abstract: The aim of this study was to evaluate the effect of different matrices on the adhesion and biofilm formation by Bacillus cereus on stainless steel, and to evaluate the effectiveness of sanitation procedures for controlling biofilm from spores of this microorganism. The first two parts were carried out in order to evaluate the adhesion and biofilm formation by B. cereus on stainless steel, with and without previous conditioning of the surface, using water, skim and whole UHT milk as matrices and four different types of inocula: a pool of B. cereus vegetative cells isolated from dairy industry, a pool of B. cereus spores isolated from dairy industry, vegetative cells of B. cereus ATCC 14579, and spores of B. cereus ATCC 14579. The third part of the study evaluated the effect of the conditioning matrix (water and whole UHT milk), the inoculation medium of pool of B. cereus spores (water and whole UHT milk) and exposure time (5 min (0.08h), 10, 24, 48 and 72 hours) on the adhesion and biofilm formation by B. cereus on stainless steel. In the fourth part, the effect of nine sanitation procedures on the removal of B. cereus spores biofilm was evaluated. All experiments were repeated three times and data were statistically evaluated. Hydrophobicity and zeta potential from spore¿s surface were also evaluated. Regarding the results to the first and second parts, the pool of B. cereus spores isolated from dairy industry had the highest ability of adhesion on stainless steel when compared to the other inocula, for all tested conditions. After stainless steel surface conditioning with whole milk, B. cereus spores showed the highest adhesion (4.93 log CFU/cm2). However, lower adhesion (3.01 log CFU/cm2) was observed when B. cereus spores were delivered in whole milk as compared to the other matrices, without previous conditioning of the surface. The results of the third part indicated that the adhesion and biofilm formation by the pool of B. cereus spores was higher when they were inoculated in water, regardless of the conditioning matrix. B. cereus spores adhesion increased by 1.02 and 0.3 log CFU/cm2 over exposure time, when the pool of B. cereus spores was inoculated into water and whole milk, respectively. Biofilm of B. cereus spores inoculated in water showed the highest resistance against all tested sanitation procedures. Sodium hypochlorite was the most effective sanitizer for removing all biofilms when compared to the peracetic acid. The pool of B. cereus spores isolated from dairy industry was highly hydrophobic and showed a negative charge at a wide pH range, with an isoelectric point of about 3.0. B. cereus spores isolated from dairy industry showed the highest ability to adhere on stainless steel when compared to the other inocula, which is possibly related to its higher hydrophobicity and lower spore surface charge
Doutorado
Tecnologia de Alimentos
Doutora em Tecnologia de Alimentos
Philip, Sheryl Elizabeth. "Biosynthesis of Polyhydroxyalkanoates in Bacillus cereus SPV." Thesis, University of Westminster, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.507852.
Full textBarker, Margaret. "Population structure of the Bacillus cereus group." Thesis, Heriot-Watt University, 2006. http://hdl.handle.net/10399/2145.
Full textHarvie, Duncan Robert. "Environmental stress and virulence in Bacillus cereus." Thesis, University of Cambridge, 2004. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.615619.
Full textPandiani, Franck. "Mécanismes d’adaptation aux basses températures de croissance de la bactérie pathogène B. cereus : rôle des hélicases à ARN." Thesis, Avignon, 2010. http://www.theses.fr/2010AVIG0634/document.
Full textBacillus cereus is a widespread bacteria, thus contaminating all raw materials in contact with soil. In France, B. cereus is considered as the fourth causative agent of foodborne illness. To be pathogenic, B. cereus should multiply during the various stages of food processing and particularly during preservation at low temperature. The aim of this study was to study molecular mechanisms of the adaptive response at low temperature and more precisely the involvement of the B. cereus ATCC 14579 RNA helicases. The cshA gene encoding a putative RNA helicase was identified by a random mutagenesis approach, as playing a major role in cold adaptation of B. cereus. The ATCC 14579 strain possesses 5 genes encoding putative RNA helicases, cshA to cshE, which were all strongly overexpressed at 10°C versus 37°C, whatever the growth stage. The simple deletion of cshA, cshB, and cshC lead to a cold-sensitive phenotype, resulting in an inability to adapt at 10 °C compared to the wild type strain, associated to a huge modification of cell morphology. In addition, CshA, CshB and CshC have a temperature range where their action is decisive. The role of these three RNA helicases also appears to be important in adaptation to oxidative and basic stresses while CshD and E did not appear to be involved in the adaptation to the tested stresses. The RNA helicase CshA has the most important role in adaptation to cold. We demonstrated that CshA is essential at low temperature to allow the maintenance of ribosome stability. CshA interacts directly with ribosomes, and also regulate rRNA degradation. The identification of protein partners that interact with CshA suggests that it could be involve in a complex of RNA decay
Atkinson, Deborah Jane. "Stress response and inorganic poly-phosphate in the Bacillus group bacteria." Thesis, University of Bath, 2010. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.538113.
Full textPiza, Francisco Assis Toledo. "Purificação da enzima quitosanase de Bacillus cereus em sistemas de duas aquosas." [s.n.], 1998. http://repositorio.unicamp.br/jspui/handle/REPOSIP/255641.
Full textDissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos
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Resumo: Este trabalho investigou a produção, extração e purificação da enzlma quitosanase. Planejamento fatorial fracionado 25-1 foi utilizado para obtenção de maiores níveis de quitosanase, avaliando o efeito das seguintes variáveis: concentração de quitosana, concentração de sulfato de amônio, pH, aeração e tempo de fermentação. As variáveis significativas para a produção da enzima quitosanase foram a concentração de sulfato de amônio, aeração, pH e as interações entre concentração de sulfato de amônio e aeração. A atividade máxima (l,5U/mL) foi alcançada em meio contendo 2,0% de quito sana, 4,0% de sulfato de amônio, aeração 10 (relação entre o volume do Erlenmeyer e o volume de meio de cultura), pH 5,8, 30°C em 16 horas de fermentação. Purificação primária da enzima quitosanase foi desenvolvida por partição em Sistemas de Duas Fases Aquosas (SDFA). Cinco composições de SDFA foram investigadas, sendo o melhor sistema para separação constituído de 22% PEG 1500 e 10% fosfato. Neste SDFA a enzima quitosanase foi recuperada na fase inferior (91%), obtendo-se um fator de purificação de 5,2. Purificação secundária da enzima quitosanase foi desenvolvida por cromatografia preparativa de troca iônica (CTI) em resina S-Sepharose (catiônica). A extração e purificação nas duas etapas (SDFA e CTI) resultaram em fator de purificação de 20 vezes e 66% de recuperação de quitosanase. Este processo de purificação desenvolvido é potencialmente interessante para a ampliação de escala, alcançando elevada recuperação em apenas duas etapas. A massa molecular da enzima quitosanase purificada (47 kDa) foi determinada por eletroforese em gel de poliacrilamida (SDS) e o ponto isoelétrico (8,8) foi determinado por focalização isoelétrica.
Abstract: A culture media for a wild strain of Baci/lus cereus was studied with regard to chitosanase production by means of experimental fractional fatorial design 25-1. The factors which were investigated were the chitosan concentration, the pH, the ammonium sulfate concentration, the aeration and the fennentation time. The factors having the strongest influence on chitosanase production were the ammonium sulfate concentration, aeration, pH and the interaction of the first two parameters. Optimal conditions for chitosan production (1.5 U/rnL) were in culture media containing 2.0% of chitosan, 4.0% of ammonium sulfate and with aeration 10 (Erlenmeyer flask volume and culture media volume ratio) at pH 5.8 at 30° for 16 hours. The enzyme was partially purified by partitioning in aqueous two-phase system (ATPS). Five different ATPS compositions were investigated for enzyme recovery and purity. The best system was made with 22% PEG 1,500, 10% phosphate, where the chitosanase was mainly collected in the botton phase (91% recovery and 5.2 fold the purification factor). A second-step purification was achieved by cation-exchange chromatography with S-Sepharose and salt gradient. The complete two-steps purification process developed achieved 66% chitosanase recovery and a 20 fold increase of the purification factor The apparent molecular weight of the chitosanase detennined by SDS-P AGE electrophoresis was 47 kDa and the observed isoelectric point was 8.8.
Mestrado
Mestre em Tecnologia de Alimentos
Glasset, Benjamin. "Approche combinatoire pour la caractérisation des souches de Bacillus cereus à l'origine d'infections chez l'Homme." Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLA026/document.
Full textBacillus cereus is the second cause of foodborne outbreaks (FBO) in France since 2012. Several cases of local and systemic infections caused by B. cereus were also reported. By its ability to form biofilms and spores, B. cereus arises real problems in the food industry and public health by resisting to cleaning and disinfection procedures. It remains many questions about the toxicity differences observed among B. cereus strains, several are harmless to humans while others can cause death. But the food industry and hospitals need to know if a strain found in their environment is unsafe and requires intervention that can have an economic and human impact. Face to these challenges, my work was to collect and characterize 564 strains isolated from FBO and 56 strains isolated from patients following cases of non-gastrointestinal infections in order to compare them with environmental strains of B. cereus and identify what differentiates them to others.By a full analysis of epidemiological and clinical data of B. cereus strains and their molecular typing and characterization by a genetic model based on the detection of ten genes potentially involved in virulence, interest strains have been selected to deal with toxicity and transcriptomic in depth. This first part has also allowed increasing knowledge about FBO caused by B. cereus and also to highlight cross-contaminations occurred in several French hospitals leading to death.The in vitro toxicity studies performed on three eukaryotic cell models showed significant differences between toxicity levels of B. cereus strains that have caused infections and those no linked to infections. The differential trancriptomic study has allowed identifying a list of markers that could be used, after validation, for differentiating pathogenic strains from those considering as non-pathogenic. Following the transfer of knowledge and methods, these markers could be used by food safety laboratories and medical laboratories to be a decision aid in case of B. cereus contamination
Choma, Caroline Danielle. "Incidence et caractérisation de Bacillus cereus isolé de produits de Vème gamme : études métabolique et physiologique de Bacillus cereus." Avignon, 2000. http://www.theses.fr/2000AVIG0307.
Full textAbbas, Amina Aicha. "Effet de l’absence d’oxygène sur la capacité de sporulation et les propriétés des spores de Bacillus cereus." Thesis, Avignon, 2014. http://www.theses.fr/2014AVIG0330/document.
Full textThe effect of temperature and nutrient composition of the medium on B. cereus spore properties (resistance and germination) has been extensively studied unlike to the effect of anaerobiosis. Nevertheless, B. cereus vegetative cells can be found in a large variety of natural environments with low oxygen level (intestine, soil, food processing line) where sporulation take place. Spores produced in these anaerobic environments could have particular properties. In this work, a panel of B. cereus strains belonging to phylogenetic groups II to VII was studied for their capacity to sporulate in anaerobiosis in an appropriate sporulation medium we developed (MODS). In anaerobiosis, sporulation ability was lower and more heterogeneous than in aerobiosis. The B. cereus AH187 strain produced the highest level of spores in anaerobiosis, it was therefore chosen to study spore properties. Spores produced in anaerobiosis were more resistant to wet heat from 90°C to 100 °C, 1M NaOH, 1M nitrous acid and pulsed light. No difference in resistance to 5 % hydrogen peroxide or 0.25 mM formaldehyde or UV-C was observed between these two conditions. In the presence of L-alanine, spores produced in anaerobiosis germinated more efficiently than spore produced in aerobiosis. No difference in germination was observed with inosine. No difference in the spores size produced in the two conditions was observed by transmission electron microscopy. However, spores obtained under anaerobic conditions had a damaged exosporium, or in some cases a completely detached exosporium, unlike spores produced under aerobic conditions. To understand differences in sporulation ability between both conditions, Real-time reverse transcription-PCR was used to study the expression the expression of sporulation initiation genes spo0A, spo0B, spo0F, kinA and kinB. The kinetics of gene expression spo0A, spo0B, spo0F and kinA had the same trend. They were characterized by a higher expression in anaerobiosis compared to aerobiosis at the beginning and the end of exponential growth phase. Furthermore, kinB gene expression was characterized by an increase in anaerobiosis compared to aerobiosis to achieve a peak between 4 (middle exponential phase) and 6 (early stationary phase) hours of growth. The spo0A, spo0B, spo0F, kinA and kinB genes are differentially expressed between aerobiosis and anaerobiosis. These data may help to understand the difference in B. cereus sporulation capacity between aerobic and anaerobic condition
Le, Lay Julien. "Compréhension des mécanismes impliqués dans l’activité réductrice et dans les adaptations métaboliques à pH acide de Bacillus cereus : implication des thiols exofaciaux." Thesis, Avignon, 2014. http://www.theses.fr/2015AVIG0331/document.
Full textBacillus cereus is a Gram positive bacterium able to adapt and survive to numerous stress, including acid stress or oxydo-reduction potential (Eh) variations. Some adaptations are documeted for each of these two stress. However, the interaction between Eh and pH on B. cereus physiology was never studied. Here, we focus on the impact of Eh variation on the acid resistance of B. cereus, on the metabolic adaptation of these bacteria under low pH and on the interaction of bacterial cells with their redox environement. Results obtained demonstrate that the acid survival of B. cereus was slighlty higher under reductive Eh than under oxdative Eh. Concerning acid adaptations, we observed a major metabolic adjustement for cells cultivated at low pH with an important shift from mixed acid fermentation to butanediolic fermentation. Finally, we demonstrate the importance of exofacials thiols groups in the reductive abilities of B. cereus. All these conclusions will help to better understand the response of B. cereus exposed to acid stress and Eh
Soufiane, Brahim. "Propriétés physiologiques et génétiques communes entre Bacillus weihenstephanensis et des souches de Bacillus thuringiensis, Bacillus cereus et Bacillus mycoides." Thèse, Université du Québec à Trois-Rivières, 2013. http://depot-e.uqtr.ca/6958/1/030592856.pdf.
Full textKrause, Nora. "Produktion von Bacillus cereus Enterotoxinen unter verschiedenen Wachstumsbedingungen." Diss., lmu, 2007. http://nbn-resolving.de/urn:nbn:de:bvb:19-73633.
Full textEl-Khoury, Wassim. "Control of Bacillus cereus in English-style crumpets." Thesis, McGill University, 2001. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=31226.
Full textInitial studies were done to determine the effect of water activity ( aw), pH, modified atmosphere packaging (MAP), UV-light, bacteriocins, organic acids and esters, alone and in conjunction with each other, on the growth of B. cereus in model broth/agar systems.
B. cereus is a difficult microorganism to control in food using conventional preservation methods. Further studies are now under way to investigate novel methods to control the growth of this pathogen, particularly in high pH crumpets. (Abstract shortened by UMI.)
Haque, Ahwarul. "Characterisation of Bacillus cereus strains in Bangladeshi rice." Thesis, Imperial College London, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.272635.
Full textMohr, Ann-Katrin. "Enterotoxinproduktion von Bacillus cereus unter simulierten intestinalen Bedingungen." Diss., Ludwig-Maximilians-Universität München, 2015. http://nbn-resolving.de/urn:nbn:de:bvb:19-179892.
Full textWilley, Tara Louise. "Virulence and oxidative stress responses in Bacillus cereus." Thesis, University of Cambridge, 2005. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.615248.
Full textEsbelin, Julia. "La protéine Fnr et le système à deux composants ResDE, des régulateurs majeurs de la synthèse des entérotoxines de Bacillus cereus." Phd thesis, Université d'Avignon, 2009. http://tel.archives-ouvertes.fr/tel-00410526.
Full textCHALVET, LAURENT. "Pouvoir pathogene du bacillus cereus : revue de la litterature a propos de 4 observations de cellulites post-traumatiques." Lyon 1, 1991. http://www.theses.fr/1991LYO1M088.
Full textZigha, Assia. "Métabolisme adaptatif et toxinogénèse de Bacillus cereus F4430/73 : implication du système à deux composants ResDE et du régulateur Fnr." Aix-Marseille 3, 2007. http://www.theses.fr/2007AIX30005.
Full textBacillus cereus is an opportunistic pathogenic bacteria responsible of two types of food-home diseases one caused by an emetic toxin (cereulide) responsible of the emetic syndrome, and the other caused by three enterotoxins (Hbl, Nhe and CytK) associated with the diarrhoeal syndrome. The diarrhoeal syndrome results from toxin production by B. Cereus in the host small intestine characterized by an anaerobic atmosphere and low oxidoreduction potential (ORP). The objective of this thesis is to characterize the B. Cereus adaptation and to evaluate its toxinogenesis when it encounter anaerobic and reduced environment often met and implied in the virulence of other pathogenic bacteria. Our results showed mat the diarrhoeal strain F4430/73 of B. Cereus has a very efficient fermentative metabolism which enables it to grow under low ORP conditions. Furthermore, we showed that the production of the enterotoxins is energy metabolism dependent. It is supported by fermentative growth conditions and is more important as fermentation is conducted at tow ORP (ORP=-148 mV). The regulation of enterotoxins expression in response to anaerobiosis is carried at the transcriptionnel level. We showed the involvement of two regulators controlling simultaneously the fermentative pathways and toxinogenesis. The two components system "ResDE" acts as redox sensor and the "Fnr" protein carrying the Fe-S cluster acts as fermentation sensor. Our results suggest that both ResDE and Fnr regulators belong to a redox regulatory pathway that at least partially functions independently of the pleiotropic virulence regulator PIcR to regulate enterotoxin gene expression
Pretorius, Jakobus Maree. "Identification and characterization of genes involved in Bacillus cereus biofilm formation." Diss., University of Pretoria, 2010. http://hdl.handle.net/2263/30290.
Full textDissertation (MSc)--University of Pretoria, 2013.
Microbiology and Plant Pathology
unrestricted
Wiescher, Fabian Mathias Moritz. "Produktion von poly- und monoklonalen Antikörpern gegen Staphylococcus aureus, Bacillus cereus und Sporen von Bacillus cereus zur Entwicklung eines bioaffinitätschromatographischen Schnellnachweises." Diss., lmu, 2013. http://nbn-resolving.de/urn:nbn:de:bvb:19-153618.
Full textOlivar, Barreto Jorge Mario. "Ocorrência de Bacillus cereus em produtos lácteos comercializados na microrregião de Viçosa, Minas Gerais, determinação de genes de virulência e produção de toxina." Universidade Federal de Viçosa, 2016. http://www.locus.ufv.br/handle/123456789/7766.
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O leite e os produtos lácteos podem se contaminar com Bacillus cereus, um micro-organismo que dependendo do número, da estirpe e das condições de processamento e comercialização, além de produzir lipases e proteases causadoras de off-flavor nos produtos, está associado a duas síndromes distintas que atingem os humanos: uma de natureza diarréica causada pela toxinas não hemolítica nhe, hemolítica hbl e citotoxina cytk e outra emética, causada pela toxina denominada de cereulide ces. Avaliou-se a presença de B. cereus no leite pasteurizado, leite em pó, leite UHT, queijo ricota e sobremesas lácteas, bebidas lácteas e leite achocolatado comercializados supermercados da microrregião de Viçosa, Minas Gerais. nos Também, determinou-se a presença de fatores de virulência de B. cereus nos isolados e avaliou-se a produção de enterotoxina diarreica. A ocorrência de B. cereus em diferentes produtos lácteos foi avaliada utilizando métodos quantitavivo e qualitativo. Das 129 amostras analisadas, foi observada a presença de B. cereus em 69 (53,4%) considerando ambos os métodos. As contagens do micro-organismo variaram de 1,30 log UFC/mL no leite pasteurizado até 5,32 log UFC/g na ricota. A presença do B. cereus foi detectada no leite UHT apenas no teste qualitativo. Os 69 isolados que apresentaram caraterísticas fenotípicas de B. cereus foram confirmados como sendo dessa espécie pela técnica de PCR para o gene 16S, e foram classificados como pertencentes a três estirpes diferentes (B. cereus KAVK4, B. cereus SVK1 e B. cereus ATCC 4342), sendo predominante em todos os produtos analisados a estirpe B. cereus KAVK4. Dos 69 isolados analisados para a presença de genes produtores de enterotoxinas, 68 (98 %) apresentaram o gene nhe. Este gene foi expresso nos 68 isolados com a produção de pelo menos 6 ng/mL da nhe, limite mínimo de detecção desta toxina na metodologia utilizada. Dos 69 isolados confirmados como B. cereus, 40 (57 %) apresentam a amplificação do gene hbl, em 30 (75 %) destes constatou-se a produção de pelo menos 20 ng/mL da toxina hbl, limite de detecção do kit utilizado. A presença do gene cytk foi verificada nos 69 isolados analisados. A ocorrência de pelo menos um gene produtor de enterotoxina foi constatada em todos isolados, o que indicaria um alto potencial patogênico das estirpes presentes nos produtos lácteos.
Milk and dairy products may be contaminated with Bacillus cereus, a micro- organism that depending on the number, of the strain and of the processing and marketing conditions can produce lipases and proteases that cause off-flavor in dairy product and it is associated with two distinct syndromes that affect humans: one diarrhea caused by toxins, not hemolytic nhe, hemolytic hbl and cytotoxin k cytk and another emetic caused by toxin, called cereulide. The aim of this study was to evaluate the presence of B. cereus in milk products marketed in the supermarkets of Viçosa city, Minas Gerais, Brazil. Also, it was determined the presence of virulence factors of B. cereus isolates and it was evaluated the diarrheal enterotoxin production. The occurrence of B. cereus in different dairy products was evaluated using quantitavive and qualitative methods. Of the 129 samples analyzed, it was observed the presence of B. cereus in 69 (53.4%) considering both methods. The microorganism counts vary from 1.30 log UFC/ml in milk pasteurized up to 5.32 log UFC/g in the ricotta. The presence of B. cereus was detected in the UHT milk only in qualitative testing. The 69 isolates with phenotypic characteristics of B. cereus were confirmed as this species by PCR for gene 16S, and they were classified as belonging to three different strains (B. cereus KAVK4, B. cereus SVK1 and B. cereus ATCC 4342), being predominant in all the products analyzed strain B. cereus KAVK4. From the 69 isolates analyzed for the presence of enterotoxin producing genes, 68 (98%) had the nhe gene. This gene was expressed in the 68 isolates with the production of at least 6 ng / ml of nhe, minimum detection limit of the methodology of this toxin. From the 69 isolates confirmed as B. cereus, 40 (57%) showed the amplification of the gene hbl, 30 (75%) of them it was found containing at least 20 ng / mL of the hbl toxin, according kit detection limit .The presence of cytk gene was found in 69 isolates analyzed. The occurrence of at least one enterotoxin producing gene was found in all isolates, which would indicate a high potential pathogenic strains present in dairy products.
Oh, Mi Hwa School of Chemical Engineering & Industrial Chemistry UNSW. "Ecology of toxigenic bacillus species in rice products." Awarded by:University of New South Wales. School of Chemical Engineering and Industrial Chemistry, 2006. http://handle.unsw.edu.au/1959.4/23942.
Full textBennaceur, Imène. "Etude du recrutement de la phase planctonique par le biofilm chez Bacillus cereus : approches physiologiques et moléculaires." Thesis, Paris 11, 2013. http://www.theses.fr/2013PA112056.
Full textWhen biofilm is developing in static conditions, cell exchanges between sessile and planktonic coexisting population can emerge. Up to now, very few are known about the implication of planktonic cells integration in monospecies biofilm development. in B. cereus, a foodborne pathogen, our team have shown that motility is a key factor for biofilm development and for the deep penetration of motile planktonic bacteria inside a biofilm formed in immersed condition. Based on these data, the purpose of the present work was to determine the role of recruitment in the development of biofilm in air-liquid interface and to characterize this phenomenon physiologically and in a molecular aspect. We showed that a massive planktonic population is integrated in the developing biofilm, however, in our experimental conditions this recruitment contributes only marginally to the biofilm growth. We have developed two recruitment systems (in air-liquid interface and in immersion condition), to quantify recruitment, which has allowed us to screen a library of mutants obtained by random mutagenesis in order to select clones unable to be recruited by a preformed biofilm. Screening of 1700 clones resulted in the selection of a gene: Bthur002_62720. The deletion of this gene by allelic exchange strongly affects the ability of the mutant to be recruited, and complementation restored the wild type phenotype. This gene encodes a protein probably localized in the bacterial envelope. It is carried by a plasmid, pCT8513, and could be a mobile element whose acquisition would greatly increase the ability of the recipient bacterium to be recruited by a biofilm. Finally, we have highlighted the role of the eps locus in the recruitment of planktonic cells in a biofilm formed at air-liquid interface. This locus is homologous to Bacillus subtilis epsA-O locus, required in this species for the production of exopolysaccharides of the biofilm matrix. In B. cereus, we have shown that the eps locus is involved in the formation of an exopolysaccharides sheath weakly bound to the bacterial cell wall. This exopolysaccharides layer contributes with other exopolysaccharides of unknown origin, to the formation of the biofilm matrix, and plays an important role in the adhesion of bacteria on inanimate and living surfaces.By promoting bacterial adhesion on living surfaces; the eps locus could help bacteria integration into the biofilm. It could also be involved in the pathogenicity of bacteria
Wegscheider, Monika. "Untersuchungen zu Bacillus cereus Enterotoxin-Komplexen auf zellulärer Ebene." Diss., lmu, 2004. http://nbn-resolving.de/urn:nbn:de:bvb:19-18979.
Full textLiu, Yanling. "Electric DNA arrays for determination of pathogenic Bacillus cereus." Licentiate thesis, Stockholm : School of Biotechnology, Royal Institute of Technology, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-4403.
Full textGracias, Kiev S. "Molecular typing of virulence genes in enterotoxigenic Bacillus cereus." Virtual Press, 2007. http://liblink.bsu.edu/uhtbin/catkey/1378147.
Full textDepartment of Biology
Alonso, Carlos Eduardo de Sousa. "Pesquisa de cereulida em isolados do grupo Bacillus cereus." Bachelor's thesis, Universidade Técnica de Lisboa. Faculdade de Medicina Veterinária, 2008. http://hdl.handle.net/10400.5/1238.
Full textO Bacillus cereus sensu stricto é um patogénio alimentar que tem adquirido uma importância crescente nos últimos anos. Sendo uma bactéria com distribuição ubiquitária na natureza pode contaminar várias matérias-primas e alimentos, o que associado à sua capacidade de formação de esporos resistentes a condições severas faz com que possa permanecer viável após a confecção dos alimentos. Este microrganismo é reconhecido desde o início do século XX como agente de toxinfecção alimentar devido à sua capacidade de causar um síndrome diarreico, mas actualmente sabe-se que este agente possui também a capacidade de causar um síndrome emético, associado a uma toxina termostável pré-formada nos alimentos: a cereulida. Pensa-se que a incidência de toxinfecção alimentar por B. cereus sensu stricto seja subestimada, uma vez que não é uma doença de declaração obrigatória e mimetiza outros agentes, contudo nos últimos anos têm sido descritos casos graves de toxinfecção alimentar causados por esta bactéria, com hospitalizações e mortes. O objectivo deste estudo foi pesquisar a presença do gene que codifica a cereulida sintetase numa amostragem de bactérias do grupo B. cereus isoladas de alimentos e de vários pontos do país. Foram encontradas por PCR em tempo real 7 estirpes positivas num total de 106: 3 estirpes alimentares e 4 ambientais, tendo as estirpes positivas sido confirmadas presuntivamente como sendo B. cereus sensu stricto. A detecção de estirpes portadoras do gene da cereulida sintetase vem demonstrar a possibilidade de toxinfecção alimentar por estirpes eméticas B. cereus sensu stricto em Portugal. Os dados deste estudo permitem propor a adopção do PCR em tempo real como metodologia de rotina para pesquisa de estirpes eméticas de B. cereus sensu stricto, já que esta é uma técnica fiável que permite uma rápida obtenção de resultados. Uma vez que esta técnica permite também a fácil distinção em relação ao Staphylococcus aureus pode contribuir para a elucidação sobre qual a verdadeira incidência de toxinfecção por estirpes eméticas de B. cereus sensu stricto.
ABSTRACT - Bacillus cereus sensu stricto is a food pathogen which has grown in importance over the last few years. As it is a bacterium with ubiquitary distribution in nature a it can contaminate a variety of processed and raw foods. Since it has the ability to produce spores resistant to extreme conditions, it remains viable through food processing. This microorganism has been recognized as a food pathogen since early in the XXth century for its ability to cause diarrheic syndrome, but it’s now know that it can also cause emetic syndrome, due to the production of a heat stable toxin in food: cereulide. The incidence of B. cereus sensu stricto food-poisoning is thought to be underestimated since it is not a reportable disease and mimetizes other food pathogens, but even so over the last few years severe cases have occasionally been reported involving hospitalization or even deaths. The objective of this study was to investigate the presence of the cereulide synthetase gene in a sample of 106 strains of bacteria of the B. cereus group isolated from different foods and from several spots in Portugal. Using real time PCR 7 positive strains were found: 3 strains from food and 4 environmental, which were presumptively confirmed as B. cereus sensu stricto. The detection of strains carrying the cereulide synthetase gene shows that there is a possibility of food poisoning by emetic strains of B. cereus sensu stricto in Portugal. The data from this study allows to propose real time PCR as a routine methodology for identification of emetic strains of B. cereus sensu stricto, since this is a reliable technique with quick results. As this technique allows easy distinction from Staphylococcus aureus it may contribute to determining the true incidence of the emetic type of food poisoning caused by B. cereus sensu stricto.
Marquardt, Marcos Motta. "Estudos de atividade proteolítica de Bacillus cereus em biorreator." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2003. http://hdl.handle.net/10183/7412.
Full textLaouami, Sabrina. "Métabolisme et toxinogénèse de Bacillus cereus : rôles de l’enzyme fermentaire LdhA et du régulateur rédox Rex." Thesis, Avignon, 2012. http://www.theses.fr/2012AVIG0325/document.
Full textBacillus cereus is a widespread bacteria. Some strains are responsible of food-borne classified as emetic and diarrhoel syndromes. To colonize such environment and induce diarrhea, B. cereus must be able to grow in the various oxidoreduction potential and oxygenation conditions encountered in the gastrointestinal tract and to secrete toxins. By comparing the catabolic capacities of four strains of the B. cereus group grown under anoxic and oxic conditions in relation to their capacities for expressing Non hemolytoc enterotoxin (Nhe), we identified Lactate dehydrogenase A (LdhA) as both involved in the fermentative metabolism of B. cereus and toxinogenesis. We showed that disruption of ldhA affected the fermentative capacity of anaerobically grown F4430/73 cells and the expression of several enterotoxin genes under both anaerobiosis and aerobiosis. To determine whether the observed effect in the toxins expression was indirect and dependant of Rex, a rex mutant was built. The characterization of this mutant revealed the role of Rex in the metabolism of B. cereus, oxidative stress and toxins production. Rex could be a transcription factor controlling the expression of genes encoding enterotoxins. Ability of DNA binding is dependant on the ratio of NAD+/NADH. To determine whether LdhA could directly regulate the expression of toxins genes, LdhA was expressed in E. coli and purified as a fusion protein. The first gel retardation experiments have failed to demonstrate fixation of LdhA in the promoter regions of toxins
Laird, Brian. "The development of a reporter system for Bacillus cereus to establish the environmental conditions needed for production of Bacillus cereus enterotoxin T (bceT)." Thesis, University of Strathclyde, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.502310.
Full textTaoufiq, Amin Henrique Tavares. "Avaliação da eficácia de um descontaminante de partículas oxidantes aplicado por aerossol gasoso em esporos de Bacillus cereus." Master's thesis, Universidade de Lisboa, Faculdade de Medicina Veterinária, 2021. http://hdl.handle.net/10400.5/22138.
Full textRESUMO - Assiste-se na atualidade a uma necessidade crescente de desenvolver novos métodos de descontaminação, uma vez que os métodos convencionais são insuficientes para eliminar agentes patogénicos resistentes. O projeto “Descontaminação por Aerossol Gasoso de Partículas Oxidantes” (DRACO), desenvolvido pela Unidade Militar Laboratorial de Defesa Biológica e Química, em parceria com o Centro de Investigação da Academia Militar, tem por objetivos testar e desenvolver abordagens inovadoras para a descontaminação operacional. Neste âmbito pretende testar a eficácia de um novo descontaminante, baseado em nano partículas oxidantes. A tecnologia em teste, designada por dryVHP (formulação sólida de peróxido de hidrogénio vaporizado) foi desenvolvida pela Delox, uma startup inovadora da Faculdade de Ciências da Universidade de Lisboa. Esta tecnologia tem como objetivo permitir a criação de uma nova geração de sistemas de descontaminação com maior compatibilidade para materiais e eletrónica, permitindo também a redução do impacto ambiental e redução dos recursos humanos em cenários de contaminação biológica. Pretende-se que esta tecnologia seja empregue em áreas civis na descontaminação de infraestruturas, mas também na descontaminação de interiores, edifícios e viaturas militares. Deste modo, propomo-nos neste trabalho testar a eficácia deste novo descontaminante, comparando o seu potencial esporicida ao de outros descontaminantes líquidos (peróxido de hidrogénio líquido a 10% e ácido peracético a 0.1%), recorrendo ao uso de esporos de Bacillus cereus, como substituto de Bacillus anthracis. A estirpe de B. cereus NCTC 11143 estudada neste trabalho produz duas frações de esporos, do topo e do fundo, que se diferenciam entre si essencialmente pelas suas propriedades físico-químicas, nomeadamente a nível da hidrofobicidade. As experiências de descontaminação foram efetuadas com estas subpopulações de esporos de B. cereus em separado e testaram-se duas superfícies de plástico diferentes, uma limpa e outra suja com óleo alimentar. O peróxido de hidrogénio líquido a 10% e o ácido peracético a 0.1% demonstraram ação esporicida para as duas frações de esporos de B. cereus tanto quando aplicado em superfícies limpas, como em superfícies sujas. Por outro lado, dryVHP, disperso por vaporização pela Delox demonstrou-se apenas eficaz na descontaminação dos esporos do fundo (hidrofílicos), não exercendo ação esporicida nos esporos do topo (hidrofóbicos). Pensa-se que a diferente hidrofobicidade das duas frações de esporos esteja relacionada com as suas resistências diferenciais aos descontaminantes testados. O presente estudo permitiu destacar que o modo de aplicação do descontaminante é um fator condicionante do mecanismo de ação das substâncias ativas oxidantes, e contribuiu para aumentar o conhecimento no âmbito da descontaminação de esporos de B. cereus.
ABSTRACT - Nowadays, there is a growing need to develop new decontamination methods since conventional ones are insufficient to eliminate resistant pathogens. The "Decontamination by Aerosol Gas Decontamination of Oxidizing Particles" (DRACO) project, developed by the Biological Defense and Chemical Laboratory Unit in partnership with the Military Academy Research Center, aims to test and develop innovative approaches for operational decontamination. In this context, the main goal is to test the effectiveness of a new decontaminant, based on oxidizing nanoparticles. The decontaminant technology under test is called dryVHP (a solid formulation of vaporized hydrogen peroxide) and was developed by Delox, an innovative start-up from the Faculty of Science of the University of Lisbon. This technology aims to provide the creation of a new generation of decontamination systems with greater compatibility for materials and electronics, also allowing the reduction of environmental impact and reduction of human resources in biological contamination scenarios. This technology is intended to be used in civilian areas in the decontamination of infrastructures, but also in the decontamination of interiors, buildings, and military vehicles. Thus, the purpose of this work is to test the effectiveness of this new decontaminant, comparing its sporicidal potential to other liquid decontaminants (liquid hydrogen peroxide at 10% and peracetic acid at 0.1%), using Bacillus cereus spores as a substitute for Bacillus anthracis. The strain of B. cereus NCTC 11143 studied in this work produces two fractions of endospores, the top and bottom fraction, which differ essentially by their physicochemical properties, namely hydrophobicity. The decontamination experiments were carried out with these separate B. cereus spore subpopulations and two different plastic surfaces were tested, a clean one and a soiled one with cooking oil. Liquid hydrogen peroxide at 10% and peracetic acid at 0.1% were shown to possess sporicidal action for both subpopulations of B. cereus spores when applied to clean and dirty surfaces. On the other hand, gaseous hydrogen peroxide (dryVHP) dispersed by vaporization by Delox was shown to be effective only in decontaminating bottom (hydrophilic) spores and did not exert sporicidal action on the spores of the top (hydrophobic). The different surface hydrophobicity these two spore fractions carry is thought to be responsible for their differential resistances with the decontaminants tested. The present study highlighted that the application method of the decontaminant is a conditioning factor on the mechanism of action of the oxidizing active substances and contributed to increase knowledge in the field of decontamination of B. cereus spores.
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Lappe, Rosiele. "Caracterização da bacteriocina cereína 8A produzida pelo Bacillus cereus 8A." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2009. http://hdl.handle.net/10183/60659.
Full textThe bacteriocin cerein 8A, produced by a strain of B. cereus 8A, isolated from soil of south of Brazil with potential application against food spoilage and pathogenic bacteria.At the first phase of the study, the kinetics of thermal inactivation was studied for the bacteriocin cerein 8A. Samples of cerein 8A were treated at different time-temperature combinations in the range of 0-30 min and 70-82°C and the thermodynamic and kinetic parameters for bacteriocin inactivation were calculated. Results showed that inactivation followed a first-order reaction with k-values between 0.059 and 0.235 min-1. D- and k-values decreased and increased, respectively, with increasing temperature, indicating a faster bacteriocin inactivation at higher temperatures. Results suggest that cerein 8A is a relatively thermostable bacteriocin with a z-value of 21.98 °C and Ea of 105.7 kJ mol-1. In a second time, the ability of chelators EDTA and sodium lactate on different concentrations and cerein 8A (3200 UA/ml-1) to inhibit and inactivate Salmonella Enteritidis was investigated. The results indicated that all treatments tested, namely EDTA, sodium lactate and cerein 8A, alone and in combination, caused a significant reduction in the OD600 values of S. Enteritidis cultures. The addition of bacteriocin plus EDTA resulted in higher inhibition in comparison with the bacteriocin alone; the greater the concentration of EDTA, the greater the inhibitory effect. Transmission electron microscopy showed damaged cell walls and loss of protoplasmic material in treated cells. The cells of S. Enteritidis treated with cerein 8A alone showed small pores and the treatment does not affect the majority of cells. When the chelating agent EDTA was added the cells appeared more damaged. The injuries in cell wall become more marked with the combination of EDTA plus cerein 8A, including noticeable discharge of intracellular material, as shown for treatments with 50 and 100 mmol l- 1EDTA plus cerein 8A. The last step of this study investigated the partitioning of cerein 8A in two liquid–liquid extraction systems that are considered promising for bioseparation and purification purposes. In aqueous two phase micellar systems Triton X-114 was chosen as the as phase-forming surfactant. Aqueous two-phase systems were prepared of PEG and inorganic salts and the addition of sodium chloride was investigated in this system. Results indicated that cerein 8A partitions preferentially to the micelle rich-phase in the system with 4% Triton X-114 concentration and its antimicrobial activity was preserved. In ATPS, the best results concerning to the partition coefficients (Kb) were obtained with PEG + ammonium sulphate, when sodium chloride was added the value of Kb increase significantly and showed the best recovery yield when compared with micellar systems. The conventional purification results a higher purification fold, but a minor recovery in comparison with partitioning methods. The successful implementation of this peptide partitioning, from a suspension containing other compounds, represents an important step towards developing a separation method for cerein 8A, and more generally, for other biomolecules of interest.
Kula, Christelle. "Mieux connaitre le bacillus cereus cip 5832, substance active du probiotique paciflor , pour optimiser la production industrielle des spores." Toulouse, INSA, 2000. http://www.theses.fr/2000ISAT0032.
Full textPOLACZYK, AMY LOUISE. "ALKALINE STABILIZATION OF FRESHWATER SEDIMENTS: EFFECTIVENESS OF MICROBIAL POPULATION REDUCTION." University of Cincinnati / OhioLINK, 2002. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1021391554.
Full textMoumen, Bouziane. "Génomique comparative et analyse in silico des prophages dans le groupe Bacillus cereus." Aix-Marseille 3, 2009. http://www.theses.fr/2009AIX30009.
Full textThe Bacillus cereus group comprises bacteria taxonomically close with various phenotypes. The genomes of these bacteria are quite plastic and gene flow between closely strains could play an important role in their evolution. Among mobile elements, prophages may have an impact on the evolution of these emerging bacterial pathogens. In this study, we sequenced and analyzed the functionality of phIS3501, a prophage, which is integrated into the hlyII gene of B. Thuringiensis ATCC35646. Excision of phIS3501 resulted in the formation of an intact hlyII gene coding for a potentially active toxin. The similarity of this mode of regulation with that demonstrated in Staphylococcus aureus suggests a selection for this type of system in pathogenic bacteria. An in silico study was conducted on 14 genomes of the B. Cereus group for their prophages content. 36 prophages and prophage remnants were detected. The results of this analysis and comparative genomics suggest that prophages are widespread in this group of bacteria. The genetic exchange between these bacteria is common facilitating evolution through prophage-mediated recombination. Several genes that have no direct relationship with the development of phages were found in the genomes of these prophages. These genes may have a role in lysogenic conversion and could participate in the pathogenicity emergence by a clonal expansion or horizontal gene transfer
Ankolekar, Chandrakant R. "Levels, enterotoxigenicity, growth and physical characteristics of Bacillus cereus from U.S. retail rice." Amherst, Mass. : University of Massachusetts Amherst, 2009. http://scholarworks.umass.edu/theses/262/.
Full textCrielly, Williamson Elaine M. "Studies on the Bacillus flora of milk and milk products." Thesis, Glasgow Caledonian University, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.308117.
Full textCardoso, Priscilla. "Diversité et analyse fonctionnelle des systèmes Rap-Phr du groupe Bacillus cereus." Thesis, Université Paris-Saclay (ComUE), 2019. http://www.theses.fr/2019SACLA010/document.
Full textThe Bacillus cereus group of Gram positive spore forming bacteria is comprised by eight species that are able to colonize several ecological niches. The most important species are B. cereus, a ubiquitous soil bacterium and an opportunistic pathogen; B. thuringiensis, an entomopathogen widely used as biopesticide; and B. anthracis, the causative agent of anthrax. Even if they present different phenotypes, they are genetic closely related and their main virulence factors are encoded on plasmids. The infectious cycle of B. thuringiensis in the insect larvae is regulated by the sequential activation of quorum sensing systems from the RNPP family. Among them, the Rap-Phr was extensively studied in B. subtilis but just punctually in B. cereus group species. The Rap-Phr systems were shown to regulate various bacterial processes, including the sporulation. The objective of this study was to analyze the Rap-Phr systems in the B. cereus group, regarding their distribution, location and diversity to achieve an overview of these systems in these bacteria. Moreover, their possible involvement in the control of the sporulation process was predicted based on structural data described for RapH in B. subtilis. The rap genes, always associated with a phr gene, were present in all 49 studied strains with an average of six rap-phr genes per strain and 30% were located on plasmids. Comparison among B. cereus and B. thuringiensis strains revealed that the last one harbors six-fold more plasmid rap-phr system then the former. Moreover, phylogenetic closer strains possess a similar profile of rap-phr genes. Interestingly, 32% of the Rap proteins were predicted to inhibit sporulation and these proteins were preferentially located on plasmids and therefore in B. thuringiensis strains. This prediction was partially validated by sporulation efficiency assays suggesting that residues identified in B. subtilis as involved in the phosphatase activity are conserved but not sufficient to predict the sporulation function. Then, the plasmid-borne Rap63-Phr63 system from pAW63 plasmid of B. thuringiensis HD73 strain was further studied. The Rap63 protein moderately inhibits the sporulation and delays the expression of Spo0A-regulated genes. Rap63 is counteracted by its cognate Phr63 peptide, which mature form corresponds to the C-terminal end of the pro-peptide. Sporulation assays in insect larvae suggest a synergistic activity of Rap63-Phr63 and Rap8-Phr8 (from pHT8_1 of B. thuringiensis HD73 strain) systems on sporulation efficiency. Despite the similarities of Phr63 and Phr8 no cross-talk was found between these two systems, confirming their specificity. Altogether, these results reveal the high diversity of the Rap-Phr systems in the B. cereus group and highlight the relevance of the plasmid-borne systems to cell development. Therefore, the results demonstrated the importance of the plasmids in the adaptation and the survival of these bacteria, especially for B. thuringiensis