Global ETD Search

21	Seleção de isolados de Paenibacillus spp com atividade enzimática e antimicrobiana Lorentz, Raquel Homrich January 2005 (has links) As bactérias do gênero Paenibacillus são isolados de uma grande variedade de ambientes e tem como característica a produção e secreção de enzimas extracelulares, antimicrobianos e compostos antifúngicos inibidores de vários patógenos animais e vegetais. Os 55 isolados de 15 espécies de Paenibacillus foram testados frente a diversos substratos a fim de verificar a produção de enzimas extracelulares. Foram também testados frente a uma variedade de bactérias e fungos fitopatógenos, humanos e animais para a produção de antibióticos. Nessa triagem, P. validus, P. chibensis, P. koreensis e P. peoriae se destacaram inibindo a maioria das bactérias indicadoras. As espécies P. validus, P. chibensis e P. peoriae foram bons produtores de substancias que inibiram o crescimento de fungos, demonstrando que o gênero possui um amplo espectro de atuação. O tradicional procedimento de triagem para obterem-se novos microrganismos produtores de enzimas para fins biotecnológicos foi executado neste trabalho. As 55 linhagens foram avaliadas na sua capacidade de produzir amilase, proteases (caseinase), celulase, xantanase, xilanase, pectinase, quitinase e lipase. Os isolados se mostraram bons produtores de enzimas hidrolíticas, já que 26 apresentaram atividade xilanolítica, 17 atividade pectinolítica, 49 atividade proteolítica, 43 atividade xantanolítica, 40 atividade celulolítica, 17 atividade lipolítica, 39 atividade amilolítica em condições neutras (pH 7) e 26 atividade amilolítica em condições alcalinas (pH 10), e apenas 4 apresentaram atividade quitinolítica. Sendo assim, esses isolados são candidatos a serem utilizados como agentes biocontroladores ou podem ser explorados como produtores de antimicrobianos e de enzimas hidrolíticas de interesse. Bactérias Paenibacillus Controle biologico Enzimas : Produção Atividade antimicrobiana
22	Isolamento e caracterização de linhagens de Bacillus e Paenibacillus promotores de crescimento vegetal em lavouras de arroz e trigo do Rio Grande do Sul Silveira, Anelise Beneduzi da January 2008 (has links) Bacilos são bactérias aeróbias ou anaeróbias facultativas, Gram positivas ou Gram variáveis, produtoras de endósporos, que lhes conferem resistência ao estresse ambiental. Os gêneros Bacillus e Paenibacillus são os que possuem as espécies reconhecidamente fixadoras de nitrogênio. Outra característica dos bacilos é o grande potencial em produzir substâncias capazes de promover o crescimento vegetal, como hormônios, sideróforos, antibióticos e a capacidade de solubilização de fosfatos. Enquanto múltiplas espécies de bacilos podem ser detectadas nos solos e na rizosfera de várias plantas, muito pouco tem sido feito para estimar a sua diversidade e para indicar quais são as espécies mais comumente isoladas. Dois estudos semelhantes foram conduzidos nesse trabalho, com os seguintes objetivos: i) isolar as espécies de bacilos fixadores de nitrogênio predominantes em diferentes regiões orizícolas e tritícolas do Estado do Rio Grande do Sul, ii) estimar a sua diversidade; e iii) avaliar suas atividades como bactérias promotoras de crescimento de plantas, para utilização como futuros inoculantes. Das espécies que foram identificadas, através do seqüenciamento parcial do gene do RNA ribossomal 16S, as mais comuns foram P. borealis e P. graminis. Para a grande maioria das bactérias isoladas não foi possível a identificação em nível de espécie. Há uma alta probabilidade de que tais bactérias constituam espécies ainda não descritas, mas filogeneticamente muito próximas a P. borealis e P. graminis. Dentre os isolados da rizosfera de arroz e trigo, dois foram descritos como novas espécies neste trabalho: Bacillus oryzae e Paenibacillus riograndensis. Uma característica marcante entre os isolados da rizosfera foi a capacidade destes de produzir grandes quantidades de ácido indol-acético. Poucos isolados, tanto do solo quanto da rizosfera, produziram sideróforos e solubilizaram fosfato. As linhagens selecionadas para experimentos in vivo em casa de vegetação provaram ser muito eficientes na promoção do crescimento de suas plantas hospedeiras. Tais linhagens poderão ser usadas na formulação de novos inoculantes, melhorando o sistema de cultivo em que eles venham a ser aplicados. A identificação e o isolamento de bacilos de solos temperados e subtropicais, que combinem a habilidade de fixar nitrogênio com a produção de substâncias capazes de promover o crescimento vegetal, poderá aumentar significativamente a produtividade das lavouras graníferas no Brasil e no Estado do Rio Grande do Sul, em especial. / Bacilli are aerobic or facultatively anaerobic, Gram positive or variable, endospore-forming bacteria that exhibit resistance to environmental stress. Bacillus and Paenibacillus genera include the best knowing nitrogen-fixing species. Another bacilli characteristic is their great potential in producing substances that promote plant growth by the production of hormones, siderophores and phosphate solubilization. While multiple species of bacilli can be detected in the soils and rhizosphere, scarce research has been carried out to estimate their diversity and indicate the most commonly isolated species. In this work, two similar studies have been conducted with the objectives of: i) isolate the predominant nitrogen-fixing bacilli species from different rice and wheat crops of Rio Grande do Sul State, ii) estimate their diversity, and iii) evaluate their plant growth promoting (PGP) activities in order to use them further as inoculant strains. Among the species that have been identified through partial 16S rRNA gene sequence analysis, P. borealis and P. graminis were the most common species in both locations, soil and rhizosphere. It was not possible to identify the vast majority of isolates at the level of species. There is a high probability that these bacteria constitute species not yet described, but phylogenetically very closely related to P. borealis and P. graminis. Two isolates from rice and wheat rhizospheres were described as new species: Bacillus oryzae and Paenibacillus riograndensis. A remarkable characteristic among isolates of the rhizosphere was their ability to produce high amounts of indole-acetic acid. Few isolates, both from bulk soil and rhizosphere, produced siderophores and/or solubilized phosphates. The strains selected for in vivo experiments in a greenhouse proved to be very effective in promoting the growth of their host plants. Such strains can be used in the formulation of new inoculants, improving the cropping system in which they will be applied. The identification and the isolation of PGP bacilli from temperate and subtropical soils, which combine the ability to fix nitrogen with the production of substances capable of promoting plant growth, could also significantly increase the productivity of grain crops in Brazil and Rio Grande do Sul State in special. Bacillus Paenibacillus Fixacao de nitrogenio Genética molecular Genética vegetal
23	Isolation and Characterization of a New Capsule-Forming Bacterium Thongmee, Acharawan 05 1900 (has links) A unique, previously undescribed Gram-negative bacterium was isolated from several soils in Texas and extensively characterized in this study. The cells measured 1-2 by 4-6 μm. The distinguishing characteristic of the bacterium is the extraordinary capsular material which surrounds the cells. The new isolates are aerobic, mesophilic, non motile and have the ability to utilize a variety of organic compounds as the sole source of carbon and energy. The organism grows optimally at 30° C and the optimal pH lies between 7.0-8.0. The isolates produce catalase but oxidase is not produced. They do not produce indole or hydrogen sulfide. The organism can hydrolyze gelatin and Tween 80 but not starch, esculin and casein. The major cellular fatty acid is anteiso 15:0. The guanine and cytosine content is 58-62 mole%. The organism's taxonomic position was further established by specific gene probes, 16S rRNA homology, DNA homology and "ribotyping." These data showed that it was most closely related to members of the genus Paenibacillus, although somewhat divergent from other species classified in this genus. After careful evaluation of the results obtained during this study, it is proposed that this unique bacterium be named Paenibacillus velasolus sp. nov. capsule-forming bacterium Paenibacillus velasolus soil bacteria Aerobic bacteria.
24	Determination of the Relationship Between Bacterial Coculturing, Antibiotic Resistance and Bacterial Growth Leszcynski, Robert A. 29 June 2020 (has links) No description available. Biochemistry Antibiotic Resistance Antibiotics Bacterial Competition Streptomyces griseus Paenibacillus polymyxa
25	Discovery of active secondary metabolites from Paenibacillus odorifer, a lichen-associated bacterium / Découverte des métabolites secondaires actifs de Paenibacillus odorifer, une bactérie associée à un lichen Nguyen, Thi Bach Le 28 June 2018 (has links) Les bactéries qui sont des sources prolifiques d'antibiotiques et des fournisseurs importants d’agents pharmaceutiques peuvent produire une grande variété de métabolites. Ainsi, la découverte de métabolites issus bactéries est un nouveau challenge pour les chimistes. Parmi ces sources, les lichens sont admis comme niches intéressantes de nouvelles bactéries et de nouveaux composés bactériens. Par conséquent, les communautés de micro-organismes associées aux lichens sont devenues des sources prometteuses pour la production de composés naturels actifs. Dans cette thèse, nous avons concentré notre travail sur l'isolement des bactéries de Rhizocarpon geogaphicum, l'un des lichens crustacés les plus populaires vivant sur la roche. Parmi les souches isolées, Paenibacillus odorifer a été sélectionnée pour poursuivre les travaux visant à produire des composés actifs. Après des étapes d’optimisation de culture, l’étude des extraits issus des cultures de P. odorifer soit par le bioréacteur soit en Erlenmeyer a permis l’isolement des métabolites : un polysaccharide antioxydant, deux dérivés tert-butylphénoliques cytotoxiques issus de la bioaccumulation et de la biotransformation de précurseurs, d'un nouvel alcaloïde cytotoxique, de deux diols, de deux dérivés de type furfural et quelques autres composés connus. Des hypothèses de biosynthèse ont pu être proposés pour certains composés. La diversité des métabolites isolés de P. odorifer indique que cette espèce possède un grand potentiel de production des composés actifs et est une bactérie utilisatrice de substrats tert-butyl phénoliques. / Bacteria which are prolific sources of antibiotics and important suppliers to the pharmaceutical agents can produce a wide variety of metabolites. Thus finding metabolites from the bacterial lineages represented new interests for chemists. Among that, lichens are admitted as a rich source of new bacterial lineages and novel bacterial compounds. Therefore, microorganism communities associated with lichens became significant subjects as great potential for the production of active natural compounds. In this thesis, we focus our work on the isolation of bacterial lineages from the lichen Rhizocarpon geographicum, one of the most popular crustose lichens dwelling on the rock. Among the strains isolated, Paenibacillus odorifer was selected for further work to produce active compounds. After the culture optimization steps, the study of extracts from the P. odorifer cultures either in the bioreactor or in Erlenmeyer flask led to the production of metabolites: an antioxidant polysaccharide, two cytotoxic tert-butylphenol derivatives which came from the bioaccumulation and biotransformation of precursors, a novel and cytotoxic alkaloid compound, two diol compounds, two furfural derivatives and some other known compounds. Putative biosynthetic pathways have been proposed for some compounds. The diversity of metabolites isolated from P. odorifer highlighted that this species possessed a great potential of the production active compounds and were a new case of tert-butyl phenol utilizing bacterium. Paenibacillus odorifer Rhizocarpon geographicum Composés bactériens Alcaloïdes Tert-Butyl phénoliques Paenibacillus odorifer Rhizocarpon geographicum Bacterial compounds Alkaloid Tert-Butylphenols
26	Étude de la production de peptides non-ribosomiques chez des souches de Paenibacillus / Study of the production of NonRibosomal Peptides (NRPs) in Paenibacillus strains Tambadou, Fatoumata 26 September 2014 (has links) La colistine, antibiotique appartenant à la famille des polymyxines, est un polypeptide cyclique, cationique, ciblant les membranes bactériennes. Elle est produite par Paenibacillus polymyxa via des complexes multi-enzymatiques appelés Non-Ribosomal Peptides Synthétases (NRPS). Dans le cas de la mucoviscidose, et malgré des effets secondaires importants, la colistine est utilisée comme ultime recours pour lutter contre les bactéries Gram-négatives multirésistantes responsables d’infections pulmonaires dont Pseudomonas aeruginosa. Jusqu’ici les systèmes génétiques à l’origine de la production de la colistine étaient peu connus. Au cours de cette étude, nous avons caractérisé par LC-MS haute résolution des molécules antimicrobiennes, dont des colistines, produites par un nouveau Paenibacillus. Afin d’identifier et de cloner le cluster de gène responsable de la production de ces antibiotiques, une banque d’ADN génomique a été construite et criblée par homologie de séquence avec des systèmes de production déjà connus. Ce criblage a permis de sélectionner quatre clones d’intérêt. L’étude in silico de leurs séquences a permis d’identifier les différents modules d’un nouveau cluster NRPS qui serait à l’origine de la synthèse de variants de la colistine. À terme, cette découverte pourrait permettre de mieux contrôler la production de la colistine et d’obtenir des composés plus actifs et/ou présentant des effets secondaires amoindris. En parallèle à ce premier travail, nous avons également recherché la présence de nouvelles NRPS chez une centaine de micro-organismes issus d’une station d’étude environnementale du laboratoire (vasière intertidale). Ce travail a permis de découvrir des nouvelles séquences et d’isoler un nouveau micro-organisme producteur d’antibiotique(s). / Colistin is a cationic cyclic polypeptide antibiotic belonging to the polymyxin family and targeting bacterial membranes. It is produced by Paenibacillus polymyxa through a Nonribosomal Peptide Synthetase (NRPS) mechanism. In the context of cystic fibrosis (CF), colistin is used for the treatment of lung infections caused by multiresistant Gram-negative bacteria including Pseudomonas aeruginosa. Unfortunately, this molecule is also known for its strong side effects. So far, genetic systems controlling the production of polymyxins were little known. In this study we characterized by High-resolution LC-MS the antimicrobial molecules, including colistins, of a new Paenibacillus. A genomic library of this strain was constructed and screened to identify genes involved in the production of these antibiotics. A degenerated PCR screening was performed and allowed to select four clones in the genomic library. In silico study allowed to identify a new NRPS gene cluster responsible for the biosynthesis of colistin variants. In the future, this work might allow the harnessing of the production of colistin derived structures, more active and/or showing fewer side effects. In parallel, a second investigation was performed in order to find new NRPS genes in a collection of one hundred intertidal mudflat bacterial isolates. This work has allowed the identification of new sequences and the characterization of a new antimicrobial producing strain. Non-Ribosomal Peptides Synthétases Colistine Polymyxine Paenibacillus Mucoviscidose Antibiotique Peptides antimicrobiens Nonribosomal Peptide Synthetase Colistin Polymyxin Paenibacillus Cystic Fibrosis Antibiotic Antimicrobial peptides
27	Aplica??o de t?cnicas independentes de cultivo na detec??o de bact?rias de import?ncia agropecu?ria / Application of cultivation independent techniques in the detection of agricultural importance bacteria CARVALHO, Bruno Oliveira de 17 March 2015 (has links) Submitted by Jorge Silva (jorgelmsilva@ufrrj.br) on 2018-05-18T18:09:32Z No. of bitstreams: 1 2015 - Bruno Oliveira de Carvalho.pdf: 1725115 bytes, checksum: 78e6b6f127705b066a8a0f75bbb08e88 (MD5) / Made available in DSpace on 2018-05-18T18:09:32Z (GMT). No. of bitstreams: 1 2015 - Bruno Oliveira de Carvalho.pdf: 1725115 bytes, checksum: 78e6b6f127705b066a8a0f75bbb08e88 (MD5) Previous issue date: 2015-03-17 / CAPES / The knowledge of bacterial genetic information has enable advances in many areas allowing detecting microorganisms and evaluating the production of virulence factors and resistance in certain populations. This knowledge allows the detection of microorganisms, as well as the evaluation of virulence and resistance factors production in certain populations. More recently, molecular diagnosis based on the detection of specific fragments from these agents has been implemented in no viable bacterial cultivation environments or hampered by biotic or abiotic conditions. Besides specific agent detection, bacterial diversity analysis might be an important criterion, such as assessing soil quality. Cultivation has been the most common way for evaluating bacterial diversity. However, most of soil bacteria are not cultivable; therefore, the employment of molecular tools has been increasingly used on this sort of analysis. This survey aimed standardizing the use of cultivation independent techniques for granting three agriculture sectors demands. The first chapter standardized the employment of DGGE technique for analyzing milk bacterial diversity from mastitis and healthy teats belonging to the same animal. Results pointed to differences on bacterial profile from both groups. The second chapter evaluated the impact of the employment of drill cuttings with castor beans and cramble pies association as agricultural fertilizers by DGGE analysis. The application of this technique was efficient for evaluating treatments, as well as, confirming the treatments contribution for increasing bacterial diversity in soil samples. The third chapter compared the cultivation technique sensitivity for American Foul Brood (AFB) diagnosis, a bee disease caused by Paenibacillus larvae, to cultivation independent technique by PCR. This survey demonstrated that sensitivity of the technique was greater than that one by P. larvae cultivation technique. Thus, the present survey concluded that cultivation independent techniques were useful for granting agriculture sectors demands. / O conhecimento das informa??es gen?ticas bacterianas tem permitido avan?os em diversas ?reas do conhecimento. Esse conhecimento permite detectar microrganismos, bem como avaliar a produ??o de fatores de virul?ncia e resist?ncia em determinadas popula??es. Mais recentemente, o diagn?stico molecular pela detec??o de fragmentos de DNA espec?ficos desses agentes vem sendo implementado em situa??es onde o cultivo bacteriano n?o ? vi?vel ou ? dificultado por condi??es bi?ticas ou abi?ticas. Al?m da detec??o de agentes espec?ficos, o conhecimento da diversidade bacteriana presente em alguns ambientes pode ser um importante crit?rio, como, por exemplo, para avaliar a qualidade do solo. A forma mais comum de avaliar a diversidade bacteriana se d? atrav?s do cultivo. Por?m, a maior parte das popula??es bacterianas presentes no solo n?o s?o cultiv?veis, com isso, a utiliza??o de ferramentas moleculares s?o cada vez mais utilizadas nesse tipo de an?lise. O presente estudo teve como objetivo padronizar a utiliza??o de t?cnicas independentes de cultivo para atender demandas de tr?s setores da agricultura. O primeiro cap?tulo padronizou a utiliza??o da t?cnica de DGGE (Eletroforese em Gel de Gradiente Desnaturante) para an?lise da diversidade bacteriana do leite de tetos mast?ticos e sadios de um mesmo animal. Os resultados apontaram para diferen?as no perfil bacteriano dos dois grupos analisados. O segundo cap?tulo avaliou o impacto sobre a microbiota bacteriana em solos tratados com associa??es de cascalho de perfura??o e tortas de mamona e crambe como adubos agr?colas atrav?s da an?lise de DGGE. A aplica??o da t?cnica de DGGE foi eficiente na avalia??o e confirmou que os tratamentos contribu?ram para o aumento da diversidade bacteriana nas amostras de solos estudadas. O terceiro experimento comparou a sensibilidade da t?cnica de cultivo, oficial para diagn?stico da Cria P?trida Americana (CPA), uma doen?a ap?cola causada por Paenibacillus larvae, com t?cnica de independente de cultivo por PCR do material extra?do direto do mel. Este estudo constatou que a sensibilidade da t?cnica proposta foi superior ? obtida pela t?cnica de cultivo de P. larvae. Com isso, conclui-se que as t?cnicas independentes de cultivo foram ?teis no atendimento das demandas das quest?es dos setores agr?colas contemplados no estudo. Mastitis Soils Independent cultive techniques Mastite Solos Paenibacillus larvae DGGE Independente de cultivo Ci?ncias Agr?rias
28	Bacteriophages for Treating American Foulbrood and the Neutralization of <em>Paenibacillus larvae</em> Spores Brady, Thomas Scott 01 July 2018 (has links) The causative agent of the most devastating honeybee disease, American foulbrood (AFB), is the spore-forming bacterium Paenibacillus larvae. To prevent AFB outbreaks beekeepers prophylactically treat their hives with antibiotics even though it decreases the overall health of uninfected hives. A new treatment for AFB is needed due to recent legislation against using antibiotics, antibiotic resistance developing in P. larvae, and the resilience of P. larvae spores. Bacteriophages, or phages, are an attractive alternative to traditional antibiotics because of their specificity and ability to evolve alongside their target bacterium. In this study, two phage cocktails were developed for the treatment of AFB. The first cocktail was comprised of Brevibacillus laterosporus phages. B. laterosporus is a commensal microbe in most honeybee guts. When treated with B. laterosporus phages, B. laterosporus is induced to produce an antimicrobial toxin to which P. larvae is highly sensitive. Treating AFB infected hives with B. laterosporus phages was able to clear active infections at a rate of 75% as opposed to untreated hives that did not recover. However, B. laterosporus phages did not clear latent P. larvae spores and recovered hives relapsed after treatment. The second cocktail was comprised of P. larvae phages and hives treated with the second cocktail recovered at a rate of 100%, protected 100% of at-risk hives, and treated hives did not relapse with AFB suggesting neutralization of P. larvae spores. A P. larvae phage used in the second cocktail was examined to identify any spore-phage interactions. Results from modified plaque assays, fluorescence from FITC-labeled phages bound to spores, and electron microscopy images all confirm that phages bind to P. larvae spores. Phage therapy for the treatment of AFB is an exciting avenue not only as an alternative to chemical antibiotics, but rather a treatment that can neutralize P. larvae spores. Paenibacillus larvae American foulbrood spores phage therapy honeybees Brevibacillus laterosporus antimicrobial toxin bacteriophage phage-binding Microbiology
29	Characterization of Five Brevibacillus Bacteriophages and Their Genomes Sheflo, Michael Allen 01 June 2016 (has links) Brevibacillus laterosporus (B. laterosporus) is a pathogen difficult to distinguish from Paenibacillus larvae (P. larvae), and contributes to Colony Collapse Disorder (CCD) of honeybees. To develop a biocontrol agent to limit its presence, bacteriophages were isolated from Utah County soil samples and used to infect B. laterosporus isolated from Utah County honey and larvae samples. Since CCD is prevalent in Utah beehives, bacteriophage that infect and lyse B. laterosporus may be isolated and characterized. Pathogens were isolated from soil samples, and 16S rRNA gene tests initially identified the strains as P. larvae. Bacteriophages were isolated, purified, and amplified sufficiently to obtain images by electron microscope and genome sequencing by 454 pyrosequencing. Genomes were annotated with DNA Master, a Multiple Document Interface (MDI) program. Open reading frames (ORF's) were compared to the National Center for Biotechnology Information's (NCBI) database of primary biological sequence information via the Basic Local Alignment Search Tool (BLAST) algorithm. Later testing determined the pathogen to actually be B. laterosporus. Plaques demonstrated lytic activity, and electron microscopy revealed bacteriophages of the myoviridae family. The five sequenced genomes were composed of linear dsDNA ranging from 45,552 to 58,572 base pairs in length, 92 to 100 genes per genome, and a 38.10% to 41.44% range of G + C content. Discovering and describing new bacteriophages is a reasonably reproducible process and contributes to appreciating the diverse relationships between bacteriophage, bacteria, and eukaryota. Scientific facilitation of the bacteriophages role in limiting detrimental bacteria may contribute as an adjunctive therapy for CCD. American Foulbrood bacteriophage Brevibacillus laterosporus colony collapse disorder European Foulbrood genome Paenibacillus larvae Utah Microbiology
30	Natural products from Myxococcales and Bacillales & Description of a new myxobacterial taxon Sood, Sakshi 14 March 2014 (has links) No description available. 570 Natural Products Myxobacteria Paenibacillus larvae Aggregicoccus Pyrronazol Paenilarvin Biologie (PPN619462639)

Search results