Global ETD Search

221	Avalia??o do crescimento e da imunidade de plantas de Solanum tuberosum (L.) tratadas com rizobact?rias Vilches, Patr?cia Fernanda da Silva 30 March 2017 (has links) Submitted by PPG Biologia Celular e Molecular (bcm@pucrs.br) on 2018-03-15T13:05:33Z No. of bitstreams: 1 PATRICIA_FERNANDA_DASILVA_VILCHES_DIS.pdf: 1829625 bytes, checksum: d4b53df7fed69d5202d5bafec96aaa13 (MD5) / Approved for entry into archive by Tatiana Lopes (tatiana.lopes@pucrs.br) on 2018-03-23T12:17:26Z (GMT) No. of bitstreams: 1 PATRICIA_FERNANDA_DASILVA_VILCHES_DIS.pdf: 1829625 bytes, checksum: d4b53df7fed69d5202d5bafec96aaa13 (MD5) / Made available in DSpace on 2018-03-23T12:22:01Z (GMT). No. of bitstreams: 1 PATRICIA_FERNANDA_DASILVA_VILCHES_DIS.pdf: 1829625 bytes, checksum: d4b53df7fed69d5202d5bafec96aaa13 (MD5) Previous issue date: 2017-03-30 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Potatoes (Solanum tuberosum L.) are the third most consumed crop in the world, after rice and wheat. Among the diseases affecting potato, the blackleg and tuber soft rot, caused by phytobacteria Pectobacterium spp., lead to significant losses in the yield crop. Several studies have been exploring the use of plant defense inducers as a strategy to control plant diseases. The use of plant growth-promoting rhizobacteria (PGPR) in agriculture can lead to plant growth and enhancement of plant defense through the promotion of induced systemic resistance (ISR). However, the mechanisms involved in promoting ISR are still poorly understood. This study aimed to screen rhizobacteria of the genus Streptomyces with capacity to promote plant growth and induce Solanum tuberosum innate immunity. To achieve these objectives, we evaluated: i) the ability of Streptomyces isolates to produce auxin (3-indoleacetic acid), ACC deaminase (1-aminocyclopropane-1-carboxylic acid deaminase) and siderophores; ii) their capacity to promote the growth of potato plants; iii) the induction of resistance in potato plants challenged with Pectobacterium carotovorum subsp. brasiliensis and iv) the expression of genes related to defense pathways in S. tuberosum, promoted by Streptomyces and P. carotovorum. Results indicated that the CLV163 isolate presents PGPR features, such as high auxin and siderophores production, and promoted plant defense against P. carotovorum. Although CLV145 showed the highest auxin and siderophores production, it reduced the shoot dry mass and was inefficient in promoting plant defense. Moreover, the ability of Streptomyces in producing ACC deaminase was not critical for promoting plant growth. The CLV163 isolate induced a priming state in potato plants that has occurred through the activation of the AS and ET pathways, and its interaction with S. tuberosum plants did not impair the plant growth. / A batata (Solanum tuberosum L.) ? a terceira cultura agr?cola mais consumida no mundo, ficando atr?s somente do arroz e do trigo. Dentre as diversas doen?as que afetam esta cultura, a canela-preta e a podrid?o-mole, causadas pela fitobact?ria Pectobacterium spp., levam a importantes perdas na produ??o. Neste contexto, v?rios trabalhos v?m explorando o uso de indutores da defesa vegetal como estrat?gia para o controle de doen?as. O uso de rizobact?rias promotoras do crescimento vegetal (PGPR) na agricultura pode promover tanto o crescimento quanto o aumento da defesa das plantas atrav?s da indu??o da resist?ncia sist?mica induzida (ISR). Contudo, ainda s?o pouco conhecidos os mecanismos envolvidos na promo??o da ISR. Este estudo visou selecionar rizobact?rias do g?nero Streptomyces com caracter?sticas de promotoras de crescimento e indutoras da imunidade inata de Solanum tuberosum. Para tanto, foram avaliadas: i) a capacidade de isolados de Streptomyces produzirem auxina (?cido 3- indolac?tico), ACC desaminase (?cido 1-aminociclopropano-1-carbox?lico desaminase) e sider?foros; ii) a capacidade destas rizobact?rias em promover o crescimento das plantas; iii) a promo??o da resist?ncia em plantas de batata desafiadas com Pectobacterium carotovorum subsp. brasiliensis e iv) a express?o de genes relacionados a vias de sinaliza??o de respostas de defesa em S. tuberosum, promovida por Streptomyces sp e a fitobact?ria P. carotovorum. Os resultados indicam que o isolado CLV163 apresenta caracter?sticas de PGPR, sendo capaz de produzir auxina e sider?foros, al?m de promover o aumento da resist?ncia das plantas contra P. carotovorum. Contudo, a rizobact?ria CLV145, com a maior produ??o de auxina e sider?foros, causou a diminui??o da mat?ria seca de parte a?rea e n?o promoveu a defesa das plantas. A capacidade dos Streptomyces em produzirem ACC desaminase n?o foi determinante para a promo??o de crescimento vegetal. O isolado CLV163 induziu um estado de priming nas plantas de S. tuberosum L. atrav?s da ativa??o das vias do AS e ET e a sua intera??o com as plantas de batata n?o comprometeu o crescimento vegetal. Defesa Vegetal PGPR Batata ISR Streptomyces CIENCIAS BIOLOGICAS::BIOLOGIA GERAL
222	Caracterização de isolados de actinobactérias utilizando BOX-PCR e URP-PCR e purificação de composto bioativo produzido por um isolado de Streptomyces sp. / Characterization of actinobacterias isolates using BOX-PCR and URP-PCR and purification of a bioactive compound produced by an isolate of Streptomyces sp Borba, Marcela Proença January 2016 (has links) O filo Actinobacteria é um importante grupo de bactérias Gram positivas amplamente distribuídas nos ambientes aquáticos e terrestres, são grandes produtores de compostos biologicamente ativos e, portanto, de grande interesse biotecnológico. O gênero Streptomyces destaca-se como maior produtor destes compostos, sendo responsável por cerca de 70% dos antibióticos que hoje utilizamos. A identificação dos organismos deste gênero ainda é um desafio. Durante muitos anos a identificação foi realizada somente com base em características morfológicas e fisiológicas. Atualmente, com o avanço das técnicas moleculares, há um grande número de espécies relatadas em bancos de dados genômicos. Este trabalho tem por objetivo identificar isolados de actinobactérias presentes no Laboratório de Microbiologia Ambiental ICBS/UFRGS com auxílio das técnicas de BOX-PCR, amplamente utilizado em estudos de diversidade dentro deste filo, e URP-PCR. E, além disso, realizar purificação parcial de um composto antimicrobiano efetivo contra bactérias produzido pelo isolado Streptomyces 8S. Os primers URP e BOX1AR produziram distintos padrões de amplificação nos isolados estudados, porém não foi possível investigar as relações de similaridade entre eles. Ainda o sequenciamento da região 16S rDNA não foi eficiente para identificar as espécies. Para a purificação do composto antimicrobiano foi realizada extração líquido-líquido com o solvente acetato de etila, posteriormente cromatografia de gel-filtração (Sephadex G-75) e troca iônica (SP-Sepharose e DEAE-celulose). A atividade antimicrobiana do composto foi recuperada após cada etapa. O composto manteve-se ativo após os ensaios de estabilidade frente à adição de EDTA, enzimas proteolíticas e altas temperaturas. Isto sugere que o composto antimicrobiano não é de origem protéica. Este trabalho sugere novos estudos a partir dos resultados preliminares obtidos, como a amplificação de todo o fragmento 16S rDNA dos isolados de actinobactérias e a investigação do composto antimicrobiano através de cromatografias de alta resolução. / The Actinobacteria phylum is an important group of Gram positive bacteria widely distributed in terrestrial and aquatic environments. They are major producers of biologically active compounds and therefore of great biotechnological interest. The genus Streptomyces stands out as the largest producer of these compounds, accounting for about 70% of the antibiotics that we use today. The identification of these organisms is still a challenge. For many years the identification was carried out only based on morphological and physiology characteristics. Today, with the advance of molecular techniques, there are a large number of species reported in genomics database. This work aims to identify isolates of actinobacterias present in the Laboratório de Microbiologia Ambiental ICBS / UFRGS with the help of BOX-PCR techniques, widely used in diversity studies within this phylum, and URP-PCR. And besides that, performing partial purification of an antimicrobial compound effective against bacteria produced by Streptomyces 8S isolated. The URP and BOX1AR primers produced different amplification patterns in the isolates, but it was not possible to investigate the relationship of similarity between them. Also the sequencing of 16S rDNA was not efficient to identify the species. To purify the antimicrobial compound was carried out liquid-liquid extraction with the solvent ethyl acetate, subsequently chromatography: gel-filtration (Sephadex G-75) and ion exchange (SP-Sepharose and DEAE-cellulose). The antimicrobial in question did not adhere to the SP-Sepharose column, showing that it has negative charge. The antimicrobial activity of the compound was recovered after each step. The compound remained active after the stability tests like the addition of EDTA, proteolytic enzymes and high temperatures. This suggests that the antimicrobial compound is not a protein. This work suggests further studies based on the obtained preliminary results such as the amplification of the entire 16S rDNA of actinobacterias isolated fragment and the investigation of the antimicrobial compound using high resolution chromatography. Actinobacteria Resistência bacteriana Farmacorresistência bacteriana Anti-infecciosos Streptomyces
223	ACTINOMYCIN FAMILIAL DIVERSITY DRIVEN BY PHENOXAZINONE-CORE REACTIVITY McErlean, Matthew Richard 01 January 2019 (has links) Actinomycins are a class of compounds consisting of phenoxazinone-like core attached to two peptidolactone rings, denoted as α and β. A unique component of a few families—actinomycins G, Y, and Z—is a chlorinated β-ring threonine residue. Families G and Y also contained an actinomycin that possess a β-ring heterocycle (actinomycins G5 and Y5, respectively); prior to this work, no β-ring heterocycle-containing actinomycins were reported for the Z family. Unlike other actinomycin derivatives, Y5’s cytotoxicity was abolished while still maintaining some antibacterial potency. We constructed a model compound to probe the physical properties of the actinomycin core to test conditions under which heterocycle formation would occur. We also analyzed the gene clusters of these actinomycin producers for gene candidates to from this structural motif. We found the the actinomycin core aniline to have pKa values of 2.976 and 8.429 and a significant shift in UV absorption between 300-310nm when the group becomes charged. We also found cyclization conditions and no obvious gene candidates to form the β-ring heterocycle based on our gene cluster analysis. We hypothesize that the familial diversity of the actinomycin G, Y and Z familes is due to the reactivity of the phenoxazinone-like core. Actinomycin Streptomyces Reactivity Discover Antibiotics
224	Novel anti-infectives against pathogenic bacteria / Neue Anti-infectiva gegen pathogene Bakterien Balasubramanian, Srikkanth January 2018 (has links) (PDF) Marine sponge-associated actinomycetes are reservoirs of diverse natural products with novel biological activities. Their antibiotic potential has been well explored against a range of Gram positive and negative bacteria. However, not much is known about their anti-infective or anti-virulence potential against human pathogens. This Ph.D. project aimed to investigate the anti-infective (anti-Shiga toxin and anti-biofilm) potential of sponge-derived actinobacteria through identification and isolation of their bioactive metabolites produced and characterizing their mechanism of action by transcriptomics. This thesis is divided into three studies with the overall objective of exploring the anti-infective efficacy of actinomycetes-derived extracts and compound(s) that could possibly be used as future therapeutics. The first study deals with investigation on the anti-Shiga toxin effects of sponge-associated actinomycetes. Diarrheal infections pose a huge burden in several developing and developed countries. Diarrheal outbreaks caused by Enterohemorrhagic Escherichia coli (EHEC) could lead to life-threatening complications like gastroenteritis and haemolytic uremic syndrome (HUS) if left untreated. Shiga toxin (Stx) produced by EHEC is a major virulence factor that negatively affects the human cells, leading them to death via apoptosis. Antibiotics are not prescribed against EHEC infections since they may enhance the risk of development of HUS by inducing the production and release of Stx from disintegrating bacteria and thereby, worsening the complications. Therefore, an effective drug that blocks the Stx production without affecting the growth needs to be urgently developed. In this study, the inhibitory effects of 194 extracts and several compounds originating from a collection of marine sponge-derived actinomycetes were evaluated against the Stx production in EHEC strain EDL933 with the aid of Ridascreen® Verotoxin ELISA assay kit. It was found that treatment with the extracts did not lead to significant reduction in Stx production. However, strepthonium A isolated from the culture of Streptomyces sp. SBT345 (previously cultivated from the Mediterranean sponge Agelas oroides) reduced the Stx production (at 80 μM concentration) in EHEC strain EDL933 without affecting the bacterial growth. The structure of strepthonium A was resolved by spectroscopic analyses including 1D and 2D-NMR, as well as ESI-HRMS and ESI-HRMS2 experiments. This demonstrated the possible application of strepthonium A in restraining EHEC infections. VI In the second study, the effect of marine sponge-associated actinomycetes on biofilm formation of staphylococci was assessed. Medical devices such as contact lenses, metallic implants, catheters, pacemakers etc. are ideal ecological niches for formation of bacterial biofilms, which thereby lead to device-related infections. Bacteria in biofilms are multiple fold more tolerant to the host immune responses and conventional antibiotics, and hence are hard-to-treat. Here, the anti-biofilm potential of an organic extract derived from liquid fermentation of Streptomyces sp. SBT343 (previously cultivated from the Mediterranean sponge Petrosia ficiformis) was reported. Results obtained in vitro demonstrated its anti-biofilm (against staphylococci) and non-toxic nature (against mouse macrophage (J774.1), fibroblast (NIH/3T3) and human corneal epithelial cell lines). Interestingly, SBT343 extract could inhibit staphylococcal biofilm formation on polystyrene, glass and contact lens surfaces without affecting the bacterial growth. High Resolution Fourier Transform Mass Spectrometry (HR-MS) analysis indicated the complexity and the chemical diversity of components present in the extract. Preliminary physio-chemical characterization unmasked the heat stable and non-proteinaceous nature of the active component(s) in the extract. Finally, fractionation experiments revealed that the biological activity was due to synergistic effects of multiple components present in the extract. In the third study, anti-biofilm screening of 50 organic extracts generated from solid and liquid fermentation of 25 different previously characterized sponge-derived actinomycetes was carried out. This led to identification of the anti-biofilm organic extract derived from the solid culture of Streptomyces sp. SBT348 (previously cultivated from the Mediterranean sponge Petrosia ficiformis). Bioassay-guided fractionation was employed to identify the active fraction Fr 7 in the SBT348 crude extract. Further purification with semi-preparative HPLC led to isolation of the bioactive SKC1, SKC2, SKC3, SKC4 and SKC5 sub-fractions. The most active sub-fraction SKC3 was found to be a pure compound having BIC90 and MIC values of 3.95 μg/ml and 31.25 μg/ml against S. epidermidis RP62A. SKC3 had no apparent toxicity in vitro on cell lines and in vivo on the greater wax moth Galleria melonella larvae. SKC3 was stable to heat and enzymatic treatments indicating its non-proteinaceous nature. HR-MS analysis revealed the mass of SKC3 to be 1258.3 Da. Structure elucidation of SKC3 with the aid of 1D and 2D-NMR data is currently under investigation. Further, to obtain insights into the mode of action of SKC3 on S. epidermidis RP62A, RNA sequencing was done. Transcriptome data revealed that SKC3 was recognized by RP62A at 20 min and SKC3 negatively interfered with the central metabolism of staphylococci at 3 h. Taken VII together, these findings suggest that SKC3 could be a lead structure for development of new anti-staphylococcal drugs. Overall, the results obtained from this work underscore the anti-infective attributes of actinomycetes consortia associated with marine sponges, and their applications in natural product drug discovery programs. / Meeresschwamm-assoziierte Actinomyceten stellen ein Reservoir für verschiedene natürliche Produkte mit neuartigen biologischen Aktivitäten dar. Ihr antibiotisches Potenzial gegenüber einer Reihe von Gram-negativen und -positiven Bakterien ist bereits intensiv erforscht worden. Wenig ist allerdings über ihre antiinfektive und antivirulente Wirksamkeit gegenüber menschlichen Pathogenen bekannt. Ziel dieser Doktorarbeit war es, die antiinfektiven Fähigkeiten (anti-Shiga-Toxin und anti-Biofilm) der aus Schwämmen isolierten Actinobakterien zu untersuchen. Hierfür wurden bioaktive Metabolite der Actinobakterien identifiziert und isoliert und abschließend wurde ihr Wirkmechanismus mit Hilfe einer Transkriptomanalyse charakterisiert. Diese Arbeit ist in drei Studien gegliedert, welche alle zum Ziel hatten die antiinfektive Wirksamkeit von aus Actinomyceten gewonnenen Extrakten und Komponente(n), welche möglicherweise als zukünftige Therapeutika dienen könnten, zu untersuchen. Die erste Studie befasst sich mit den anti-Shiga-Toxin Effekten der Meeresschwamm- assoziierten Actinomyceten. Durchfallinfektionen stellen in vielen Entwicklungsländern aber auch in Industrieländern eine große Gefahr dar. Durchfallerkrankungen die durch enterohämorrhagische Escherichia coli (EHEC) hervorgerufen werden, können sich zu lebensbedrohlichen Komplikationen wie Gastroenteritis oder dem hämolytisch urenischen Syndrom (HUS) weiterentwickeln. Das von den EHEC Stämmen produzierte Shiga-Toxin (Stx) stellt hierbei den Haupt Virulenz Faktor dar, welcher die eukaryotische Proteinsynthese menschlicher Zellen negativ beeinflusst, was wiederum den Zelltod durch Apoptose zur Folge hat. Die Behandlung der EHEC-Patienten mit Antibiotika wird nicht empfohlen, da dies zu einem Anstieg von freigesetztem Stx der zersetzen Bakterien führen könnte, wodurch das Risiko für die Entwicklung des HUS ansteigt. Aus diesem Grund werden effektive Medikamente dringen benötigt, welche die Stx Produktion blockieren ohne das Wachstum der Bakterien zu beeinflussen. In dieser Studie wurden 194 Extrakte und einige isolierte Komponenten von aus Schwämmen gewonnenen Actinomyceten auf ihren negativen Einfluss auf die Stx Produktion des EHEC Stammes EDL933 mit der Hilfe des Ridascreen® Verotoxin ELISA Kits untersucht. Es konnte gezeigt werden, dass die Zugabe der Extrakte keinen signifikanten Einfluss auf die Stx Produktion hatte. Strepthonium A auf der anderen Seite, welches aus Streptomyces sp. SBT345 isoliert wurde (vom mediterranen Schwamm Agelas oroides) konnte die Stx Produktion von EDL933 bei einer Konzentration von 80 µM reduzieren ohne das Wachstum des EHEC Stammes zu beeinflussen. Die Struktur von Strepthonium A wurde mittels spektroskopischer Analyse (1D- und 2D-NMR), sowie mittels ESI-HRMS und ESI-HRMS2 Experimenten entschlüsselt. Basierend auf diesen Ergebnissen könnte Strepthonium A eine mögliche Alternative oder Zusatz in der Behandlung einer EHEC Infektion darstellen. In der zweiten Studie wurde der Einfluss der Meeresschwamm-assoziierten Actinomyceten auf die Biofilmbildung von Staphylokokken bewertet. Medizinische Produkte wie Kontakt Linsen, metallische Implantate, Katheter, Herzschrittmacher, usw. stellen optimale ökologische Nischen für die Ausbildung von bakteriellen Biofilmen dar, wodurch Infektionen im Menschen hervorgerufen werden können. Bakterien in einem Biofilm sind deutlich toleranter gegenüber der Immunantwort ihres Wirtes sowie gegenüber konventionellen Antibiotika und sind daher schwer zu bekämpfen. In dieser Studie wurde das anti-Biofilm Potential eines organischen Extrakts der flüssigen Fermentation von Streptomyces sp. SBT343 (vom mediterranen Schwamm Petrosia ficiformis) ermittelt. In vitro Ergebnisse zeigten, dass das organische Extrakt anti-Biofilm (gegenüber Staphylococci) Fähigkeiten besitzt und nicht toxisch für Maus Makrophagen (J774.1), Fibroblasten (NIH/3T3) und humane korneale Epithelzellen ist. Zudem konnte gezeigt werden, dass das SBT343 Extrakt die Ausbildung eines Biofilms von Staphylokokken auf den Oberflächen von Polystyrol, Glass und Kontaktlinsen unterbinden konnte ohne das bakterielle Wachstum zu beeinflussen. Die hochauflösende Fouriertransformation-Massenspektrometrie (HR-MS) Analyse konnte die Komplexität sowie die chemische Vielfalt an Komponenten im Extrakt aufzeigen. Eine vorläufige, physio-chemische Charakterisierung deutet darauf hin, dass die aktive Komponente im Extrakt hitzestabil und nicht proteinartiger Natur ist. Abschließend konnte durch Fraktionierungsexperimente gezeigt werden, dass die biologische Aktivität auf synergistischen Effekten mehrerer Komponenten im Extrakt beruht. In einer dritten Studie wurden 50 organische Extrakte, welche aus fester und flüssiger Fermentierung von 25 verschiedenen aus Meeresschwämmen isolierten Actinomyceten gewonnen wurden, auf anti-Biofilm-Aktivität untersucht. Hierbei wurde die anti-Biofilm Aktivität des organischen Extrakts der Festkultur von Streptomyces sp. SBT348 (vom mediterranen Schwamm Petrosia ficiformis) identifiziert. Eine Bioassay gestützte Fraktionierung führte zu der Identifikation der aktiven Fraktion Fr 7 im SBT348 Extrakt. Durch weitere Aufreinigung des Extrakts mit einer semipräparativen HPLC, konnten die bioaktiven Sub-Fraktionen SKC1, SKC2, SKC3, SKC4 und SKC5 isoliert werden. Die Sub- Fraktion SKC3 hatte den stärksten anti-Biofilm Effekt und bestand aus einer reinen Verbindung mit BIC90 und MIC Werten von 3,95 µg/ml und 31,25 µg/ml gegen S. epidermidis RP62A. SKC3 zeigte weder erkennbare Toxizität gegenüber Zelllinien in vitro noch gegenüber den Larven der großen Wachsmotte Galleria melonella in vivo. SKC3 war Hitze- und Enzym-resistent, was auf eine nicht proteinartige Natur hindeutet. Eine HR-MS Analyse ergab, dass die Masse von SKC3 1258,3 Da beträgt. Die Strukturanalyse von SKC3 durch 1D und 2D-NMR ist zurzeit in Bearbeitung. Um weiteres Verständnis über den anti-Biofilm Wirkmechanismus von SKC3 auf S. epidermidis RP62A zu erlangen, wurde eine RNA Sequenzierungsanalyse durchgeführt. Die Transkriptomanalyse zeigte, dass SKC3 von RP62A nach einer 20-minütigen Inkubationszeit erkannt wird und dass SKC3 den zentralen Metabolismus des Staphylokokken Stammes nach 3 h negativ beeinflusst. Zusammengenommen deuten die Ergebnisse darauf hin, dass SKC3 als Leitstruktur für die Entwicklung neuer anti- Staphylokokken Medikamente dienen könnte. Zusammenfassend heben die Ergebnisse dieser Arbeit die antiinfektiven Eigenschaften der Meeresschwamm-assoziierte Actinomyceten hervor und bieten eine Möglichkeit für die Nutzung dieser in Wirkstoffentwicklungsprogrammen. Marine sponges Streptomyces Staphylococci Enterohemorrhagic Escherichia coli Biofilm ddc:570
225	Metabolism analysis of streptomyces leeuwenhoekii C34 with a genome scale model and identification of Biosynthetic genes of specialized metabolites by genome mining Razmilic Neira, Valeria Isabel January 2017 (has links) Doctor en Ciencias de la Ingeniería, Mención Ingeniería Química y Biotecnología / Streptomyces leeuwenhoekii C34 es una nueva cepa que fue aislada desde la laguna Chaxa ubicada en el Desierto de Atacama, Chile. Esta cepa produce metabolitos especializados con actividad contra Staph. aureus resistente a meticilina (MRSA): chaxamicinas y chaxalactinas. La secuencia genómica de S. leeuwenhoekii C34 se obtuvo mediante las tecnologías de Illumina Miseq y PACbio RS II SMRT. El genoma se utilizó para identificar clústers de genes biosintéticos (BGCs) que codifican para metabolitos especializados a través de minería de genomas, y para desarrollar un modelo a escala genómica (GSM) para estudiar las rutas de biosíntesis de producción de metabolitos especializados. Se encontraron 34 BGCs en el genoma de S. leeuwenhoekii C34, más un BGC ubicado en el plásmido pSLE2. Se encontró tres BGCs para lazo-péptidos. Específicamente, se identificó el producto del BGC del lazo-péptido 3 en el sobrenadante de S. leeuwenhoekii C34 cultivado en medio TSB/YEME y se expresó exitosamente en el huésped heterólogo S. coelicolor M1152. Se confirmó que este lazo-péptido era el mismo que la chaxapeptina, recientemente descrita para S. leeuwenhoekii C58. Por otra parte, se identificó un BGC de 64 kb (locus 1083651 a 1147687) que codifica para un híbrido trans-AT PKS/NRPS. Es probable que el producto de este BGC sea un compuesto halogenado debido a la presencia de un gen, sle09470, que codifica para una enzima cloradora. Para estudiar este clúster de genes, se desarrollaron diferentes cepas derivadas de S. leeuwenhoekii. También, el BGC se clonó en huéspedes heterólogos: S. coelicolor M1152, M1154 and S. albus. A través de análisis de HPLC MS/MS y comparación de perfiles de metabolitos, se identificó un grupo de compuestos con patrón clorado, sin embargo se descartaron como posibles productos del BGC ya que además de encontrarse en las cepas de S. leeuwenhoekii también se encontraron en muestras de S. coelicolor M1152. Por otra parte, se detecto un metabolito con una señal de m/z 611.53 [M + H]+ solamente en las muestras de S. leeuwenhoekii M1614 ( chaxamycin BGC) y M1619 ( chaxamycin BGC; sle09560). Se requieren msá estudios para confirmar si los metabolitos expresados diferencialmente corresponden a un producto del híbrido transAT-PKS/NRPS BGC. Para construir el GSM de S. leeuwenhoekii C34 se desarrolló una interfaz basada en python, que permite: buscar genes de Streptomyces asociados a reacciones en la base de datos KEGG, realizar BLAST local contra S. leeuwenhoekii C34, comparar los dominios de proteínas, descargar información de los metabolitos, construir el GSM y realizar simulaciones usando COBRApy. Las rutas biosintéticas de chaxamicinas, chaxalactinas, desferrioxaminas, ectoina y el producto del híbrido transAT-PKS/NRPS BGC (híbrido PK-NP) se incluyeron en el modelo. El modelo, iVR1007, consiste de 1722 reacciones, 1463 metabolitos y 1007 genes, y se validó usando información experimental de crecimiento en diferentes fuentes de carbono, nitrógeno y fósforo, mostrando un 83.7 % de precisión. El modelo se usó para encontrar deleción y sobre-expresión de genes no intuitivas que predicen un aumento en la producción de precursores de chaxamicinas, chaxalactinas e híbrido PK-NP. Las modificaciones predichas podrán ser usadas para realizar ingeniería metabólica de S. leeuwenhoekii C34 para incrementar la producción de metabolitos especializados. Biotecnología Genomas Metabolitos Modelos genéticos Streptomyces leeuwenhoekii Cluster de genes
226	Two Methodologies in Pursuit of the Elucidation of Copper (II)—Centered Bioinorganic Chemistry Wagner, William John 30 March 2009 (has links) Copper is a widely distributed transition metal in the earth's crust and has been adopted in a variety of biological systems. In many ways the biochemical usefulness of copper stems from its positive redox potential. This positive redox potential allows copper to assist in the movement of electrons. Copper ions can be found in natural systems as either CuI, CuII or CuIII in part due to this redox potential. While CuII -centered biochemistry has been studied for years, mechanistic details in certain CuII -centered redox reactions remain unresolved. This study presents two methodologies for studying natural systems with known CuII -centered redox capabilities in order to better elucidate the mechanistic intricacies of Copper ion chemistry. The first method explored involves the promiscuous enzyme Streptomyces griseus aminopeptidase (SgAP) which although known primarily as a peptidase has been shown to oxidize catechol under near physiological conditions in vitro when its native ZnII ions are replaced by CuII ions. Protein engineering techniques were utilized toward expression a functional recombinant enzyme in wild type and mutant forms. The goal was to utilize Site directed mutagenesis of residues in the active site to determine which residues are involved in both the hydrolysis and the oxidative activities of SgAP. The second methodology explored was the use of the N-terminus of Histatin-5, a naturally occurring peptide that is known to form complexes with CuII, as a model system to study CuII -centered oxidation chemistry. Metal-Peptide complexes are much more simplified model systems which use the same building blocks as proteins, but reduce the structure to the minimal functional unit necessary for activity. This in turn, simplifies the study of their catalytic chemistry as influences outside of the active region are greatly reduced. Furthermore, chemical synthesis of short peptides is easily performed and inexpensive in comparison to protein engineering, thus enabling further exploration, if deemed necessary, to be a feasible and economically viable possibility. Aminopeptidase Streptomyces Copper Moonlighting Histatin American Studies Arts and Humanities
227	Assessment of common scab effects on the development of potato root systems using computed tomography scanning data Han, Liwen, 1964- January 2007 (has links) No description available. Streptomyces scabies. Potato scab. Tomography. Potatoes -- Roots -- Diseases and pests.
228	Identification and characterisation of hemicellulases from thermophilic Actinomycetes Matthews, Lesley-Ann A January 2010 (has links) <p>To ensure the sustainability of bioethanol production, major attention has been directed to develop feedstocks which provide an alternative to food-crop biomass. Lignocellulosic (LC) biomass, which is chiefly composed of industrial plant residues, is a carbon-rich reservoir that is presently attracting much attention. However LC material is highly recalcitrant to bioprocessing and requires a mixture of physical and enzymatic pretreatment in order to liberate fermentable sugars. Thermostable enzymes are extremely desirable for use in thermophilic fermentations due to their inherent stability. Hemicellulose, a core constituent of LC, requires a cascade of hemicellulases to stimulate the depolymerisation of its xylan backbone. &alpha / -L-arabinofuranosidase (AFase) increases the rate of lignocellulose biodegradation by cleaving arabinofuranosyl residues from xylan thereby increasing the accessibility of other hemicellulases. Twenty thermophilic Actinomycete isolates were screened for AFase activity using pnp-arabinofuranoside as the substrate. Three strains (ORS #1, NDS #4 and WBDS #9) displayed significant AFase activity and were identified as Streptomyces species with 16S rRNA gene sequence analysis. Genomic DNA was isolated from these strains and a cosmid library constructed in the shuttle vector pDF666. Subsequent functional and PCR-based screening revealed no positive clones.</p>
229	Streptomyces griseus protease B : a quantitative study of the cleavage preference in the presence and absence of denaturant Lamkin, Rebecca Marie 03 June 2011 (has links) Ball State University LibrariesLibrary services and resources for knowledge buildingMasters ThesesThere is no abstract available for this thesis. Streptomyces griseus. Proteinase. Ball State University. Thesis (M.S.)
230	Medium Optimization For Cephamycin C Overproduction And Comparison Of Antibiotic Production By Ask, Hom, And Ask+hom Recombinants Of Streptomyces Clavuligerus Eser, Unsaldi 01 September 2010 (has links) (PDF) Streptomyces clavuligerus is well-known for synthesizing several &beta / -lactam antibiotics like cephamycin C which is produced through aspartic acid pathway initiated by aspartokinase (Ask) enzyme encoded by ask. Four different strains were constructed in our laboratory to increase cephamycin C production by S. clavuligerus. TB3585 and BA39 contained extra copies of ask gene on a multicopy plasmid, control strains TBV and BAV contained vector only in wild type strain NRRL3585 and hom-minus background, AK39, respectively. In this study, the effects of carbon and nitrogen sources incorporated into chemically defined medium were investigated for optimum growth and cephamycin C production by AK39. A modified-chemically defined medium (mCDM) was obtained by increasing the asparagine concentration two-fold and replacing glycerol with sucrose. Subsequently, growth and cephamycin C production by recombinant S. clavuligerus strains (TB3585, AK39, BA39, BAV, TBV) in Tryptic Soy Broth (TSB) and mCDM were compared. The specific antibiotic production in mCDM by TB3585 was 3.3- and 3.2-fold higher than TBV at 72h and 96h, respectively. Aspartokinase activity of S. clavuligerus recombinants was measured to verify the ask overexpression. TB3585 showed the highest activity at 48h. Finally, intracellular amino acid pools of the strains were measured to relate the Ask activity and antibiotic production to the amino acid content within the cells. AK39 was shown to have the highest intracellular levels of lysine, leading to cephamycin C precursor synthesis / lysine plus threonine, exerting concerted feedback inhibition on Ask enzyme / methionine, which cannot be produced by AK39 like threonine due to hom disruption. QR Microbiology 1-502

Search results