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Prospecção de fungos derivados de esponjas marinhas na degradação/descoloração de poluentes ambientais. / Prospecting fungi derived from marine sponges on degradation/decolorization of environmental pollutants.Maria Raphaella dos Santos Vasconcelos 03 March 2015 (has links)
Diversos estudos têm demonstrado o potencial de utilização de fungos filamentosos na degradação de poluentes ambientais, no entanto, ainda são escassos. O presente trabalho teve como objetivo avaliar o potencial biotecnológico de 174 fungos filamentosos isolados a partir de seis espécies de esponjas marinhas, os quais foram submetidos ao screening em meio sólido contendo corante RBBR e guaiacol; a ensaios em meio líquido, na presença dos corantes preto sulfuroso, índigo blue e reativo black 5, na avaliação da produção das enzimas lacase, manganês peroxidase (MnP) e lignina peroxidase (LiP), utilizando siringaldazina, álcool veratrílico e o vermelho de fenol como substratos enzimáticos, respectivamente; a ensaios de degradação de pireno e benzo[a]pireno; a delineamentos experimentais; e à análise de metabólitos formado na degradação. O fungo selecionado Chaunopycnis alba CBMAI 1346 apresentou 94,54% de degradação em 35 de salinidade, evidenciando o potencial biotecnológico deste fungo em processos de degradação de poluentes ambientais em condições salinas. / Several studies have demonstrated the potential use of filamentous fungi in the degradation of environmental pollutants, however, are still scarce. This study aimed to evaluate the biotechnological potential of 174 filamentous fungi isolated from six species of marine sponges, which were subjected to screening on solid medium containing RBBR dye and guaiacol; the tests in liquid medium in the presence of sulfur black, indigo blue and reactive black 5 dyes, the evaluation of the production of enzymes laccase, manganese peroxidase (MnP) and lignin peroxidase (LiP), using syringaldazin, veratryl alcohol and phenol red as enzyme substrates, respectively; tested for degradation of pyrene and benzo [a] pyrene; the experimental designs; and analysis of metabolites formed in the degradation. The fungus selected Chaunopycnis alba CBMAI 1346 showed 94.54% of pyrene degradation in 35 salinity, highlighting the biotechnological potential of this fungus in the process of degradation of environmental pollutants in saline conditions.
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MALDI-TOF MS for identification of Aspergillus species : A pilot study preceding possible implementation of MALDI-TOF MS to complement morphological assessmentLindström, Christel January 2020 (has links)
Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) has revolutionized the field of bacterial diagnostics and is also used for routine analysis in smaller clinical laboratories. For identification of moulds, pre-analytical steps are more complicated and time consuming than for bacteria, and the choice of reference library has a big impact on the utility of MALDI-TOF MS. The aim of this study was to investigate if MALDI-TOF MS is applicable for identification of moulds belonging to the genus Aspergillus at the hospital laboratory in Gävle. Therefore, strains belonging to the genus Aspergillus and Penicillium, were analysed with MALDI-TOF MS after 2, 4 and 7 days of incubation. Two different extraction protocols were used and compared. Mass spectra were compared to reference spectra in two different databases: MSI-2 and RUO Compass library/BDAL (Bruker). Of the strains included, 97 % were correctly identified to species complex level with MSI-2. Only 25 % were identified to species level with RUO Compass library/BDAL (Bruker). However, totally 56 % were correctly identified to species complex level if a lower score value limit than recommended for identification, were applied. Significantly raised score values were observed with one of the protein extraction protocols used. Although, in most cases, the strains were considered identified to species complex level with either method. This pilot study conveys the feasibility of MALDI-TOF MS for identification of Aspergillus species in a clinical laboratory. While there are still issues to address, applying MALDI-TOF MS has the potential to allow for quicker and more precise identification, also in this specific clinical setting.
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Rôle des petites protéines G de type Arf dans la morphogenèse et la virulence de Candida albicans / Role of Arf small GTPases in Candida albicans morphogenesis and virulenceLabbaoui, Hayet 16 May 2017 (has links)
Candida albicans est une levure pathogène opportuniste de l’homme. La capacité de C. albicans à changer de forme en réponse à des stimuli externes, passant d’une croissance bourgeonnante à filamenteuse, est associée à sa virulence. Cette morphogenèse requiert une réorganisation du cytosquelette d’actine et un trafic membranaire ciblé. Chez Saccharomyces cerevisiae, les petites protéines G de type Arf jouent un rôle important dans le trafic membranaire et la polarité cellulaire. Le rôle de ces protéines chez C. albicans est largement méconnu. C. albicans a 3 protéines Arf, Arf1-Arf3 et 2 Arf-like, Arl1 et Arl3. Nos résultats indiquent que seule Arf2 est nécessaire à la viabilité et à la résistance aux antifongiques, et qu’Arf2 et Arl1 sont critiques pour la croissance filamenteuse hyphale; le mutant arl1/arl1 en particulier forme des hyphes 2 fois plus courtes que la souche sauvage. Les mutants Δ/pTetARF2 et arl1/arl1 ont un défaut de virulence dramatique et ARL1 est particulièrement critique pour la candidose oropharyngée. Nos résultats indiquent que les défauts du mutant Δ/pTetARF2 seraient dus à une altération du Golgi, et ceux d’arl1/arl1 de l’incapacité de ce mutant à restreindre sa croissance à un site unique. Ce défaut de croissance polarisée du mutant arl1/arl1 n’est pas lié à la mislocalisation de son effecteur Imh1, ni à une misrégulation de la phosphatidylsérine flippase Drs2. Par contre, nos données suggèrent que le défaut de croissance hyphale de ce mutant résulterait d’une hypersécrétion. Cette étude nous a permis d’identifier Arf2 et Arl1 comme protéines clés du trafic membranaire, critiques pour la croissance filamenteuse et la virulence de C. albicans. / The human fungal pathogen Candida albicans switches from budding to filamentous growth. This dramatic morphogenesis is critical for its virulence and requires sustained polarized growth, via exocytosis and endocytosis, as well as reorganization of intracellular compartments. In the yeast Saccharomyces cerevisiae, Arf G-proteins and their regulators function at the interface of membrane traffic and cell polarity. The roles of this class of proteins during the transition to filamentous growth and virulence in C. albicans are largely unknown. In C. albicans there are 3 Arf proteins, Arf1-Arf3 and 2 Arf-like proteins, Arl1 and Arl3. Our results reveal that only Arf2 is required for viability and sensitivity to antifungal drugs and that both Arf2 and Arl1 are required for hyphal growth, with arl1/arl1 hyphal filaments being 2-fold shorter than that of the wild-type strain. Furthermore, both Δ/pTetARF2 and arl1/arl1 mutants have drastically reduced virulence, with ARL1 particularly critical for oropharyngeal candidiasis. We show that the defects in Δ/pTetARF2 is due to an alteration of Golgi integrity, while the defects in the arl1 mutant are likely to result from the inability of this mutant to restrict growth to a single site. Further analyses of the arl1/arl1 mutant revealed that this defect does not result from a misregulation of the GRIP-domain golgin coiled-coil tethering protein Imh1 nor of the phosphatidylserine flippase Drs2. Rather, our results suggest that the arl1/arl1 hyphal growth defect results from increased secretion. Together our work identifies Arf2 and Arl1 as key regulators of membrane traffic, critical for hyphal growth and virulence.
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Molecular switches facilitate rhythms in the circadian clock of Neurospora crassaUpadhyay, Abhishek 22 April 2021 (has links)
Zirkadiane Rhythmen haben sich in allen Lebensbereichen aufgrund täglicher Wechselwirkungen zwischen internen Zeitgebern und Umweltreizen entwickelt. Molekulare Oszillatoren bestehen aus einer Transkriptions-Translations-Rückkopplungsschleife (TTFL), die selbsterregte Rhythmen ermöglicht. Eine verzögerte negative Rückkopplungsschleife ist zentral für dieses genregulatorische Netzwerk. Die Theorie sagt voraus, dass selbsterregte Oszillationen robuste Verzögerungen und Nichtlinearitäten (Ultrasensitivität) erfordern. Wir untersuchen die zirkadianen Rhythmen in dem filamentösen Pilz Neurospora crassa, um die zugrundeliegenden Uhrmechanismen zu studieren. Seine TTFL umfasst den aktivierenden White Collar Complex (WCC) und den hemmenden FFCKomplex, der aus FRQ (Frequency), FRH (FRQ-interacting RNA Helicase) und CK1a (Caseinkinase 1a) besteht. Darüber hinaus gibt es mehrere Phosphorylierungsstellen auf FRQ (~100) und WCC (~ 95). FRQ wird durch CK1a phosphoryliert. Während wir die zeitliche Dynamik dieser Proteine erforschen, untersuchen wir: 1) wie multiple, langsame und zufällige Phosphorylierungen die Verzögerung und Nichtlinearität in der negativen Rückkopplungsschleife bestimmen. 2) wie Grenzzyklus-Oszillationen entstehen und wie molekulare Schalter selbsterregte
Rhythmen unterstützen. In der ersten Veröffentlichung simulieren wir FRQ-Multisite-Phosphorylierungen mit Hilfe gewöhnlicher Differentialgleichungen. Das Modell zeigt zeitliche und stationäre Schalter für die freie Kinase und das phosphorylierte Protein. In der zweiten Veröffentlichung haben wir ein mathematisches Modell von 10 Variablen mit 26 Parametern entwickelt. Unser Modell offenbarte einen Wechsel zwischen WC1-induzierter Transkription und FFC-unterstützter Inaktivierung von WC1. Zusammenfassend wurde die Kernuhr von Neurospora untersucht und dabei die Mechanismen, die den molekularen Schaltern zugrunde liegen, aufgedeckt. / Circadian rhythms have evolved across the kingdoms of life due to daily interactions between
internal timing and environmental cues. Molecular oscillators consist of a transcription-translation feedback loop (TTFL) allowing self-sustained rhythms. A delayed negative feedback loop is central to this gene regulatory network. Theory predicts that self-sustained oscillations require robust delays and nonlinearities (ultrasensitivity). We study the circadian rhythms in the filamentous fungi Neurospora crassa to investigate the underlying clock mechanisms. Its TTFL includes the activator White Collar Complex (WCC) (heterodimer of WC1 and WC2) and the inhibitory FFC complex, which is made of FRQ (Frequency protein), FRH (Frequency interacting RNA Helicase) and CK1a (Casein kinase 1a). Moreover, there are multiple phosphorylation sites on FRQ (~ 100) and WCC (~ 95). FRQ is phosphorylated by CK1a. While exploring the temporal dynamics of these proteins, we investigate:
1) how multiple, slow and random phosphorylations govern delay and nonlinearity in the negative feedback loop. 2) how limit cycle oscillations arise and how molecular switches support selfsustained rhythms. In the first publication, we simulate FRQ multisite phosphorylations using ordinary differential equations. The model shows temporal and steady state switches for the free kinase and the phosphorylated protein. In the second publication, we developed a mathematical model of 10 variables with 26 parameters consisting of WC1 and FFC elements in nuclear and cytoplasmic compartments. Control and bifurcation analysis showed that the model produces robust oscillations. Our model revealed a switch between WC1-induced transcription and FFC-assisted inactivation of WC1. Using this model, we also studied possible mechanisms of glucose compensation. In summary, the core clock of Neurospora was examined and mechanisms underlying molecular
switches were revealed.
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Development of Fungal Leather-like Material from Bread WasteWijayarathna, Egodagedara Ralalage Kanishka Bandara January 2021 (has links)
Food waste and fashion pollution are two of the significant global environmental issues throughout the recent past. In this research, it was investigated the feasibility of making a leather-like material from bread waste using biotechnology as the bridging mechanism. The waste bread collected from the supermarkets were used as the substrate to grow filamentous fungi species Rhizopus Delemar and Fusarium Venenatum. Tanning of fungal protein fibres was successfully performed using vegetable tanning, confirmed using FTIR and SEM images. Furthermore, glycerol and a biobased binder treatment was performed for the wet-laid fungal microfibre sheets produced. Overall, three potential materials were able to produce with tensile strengths ranging from 7.74 ± 0.55 MPa to 6.92 ± 0.51 MPa and the elongation% from 16.81 ± 1.61 to 4.82 ± 0.36. The binder treatment enhanced the hydrophobicity even after the glycerol treatment, an added functional advantage for retaining flexibility even after contact with moisture. The fungal functional material produced with bread waste can be tailored successfully into leather substitutes using an environmentally benign procedure.
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Preparation of films and nonwoven composites from fungal microfibers grown in bread wasteKöhnlein, Maximilian January 2020 (has links)
Unsold bread makes up a signification fraction of waste occurring in Swedish supermarkets. This thesis seeks to address the problem of food waste, by cultivating filamentous fungi on bread waste and producing chitinous films and nonwovens from them. Rhizopus delemar was cultivated on bread waste in liquid-state fermentation in order to obtain mycelia biomass. The biomass was processed by alkali or protease treatments to disrupt the fungal cells and remove proteins and fats. Afterwards it was subjected to a bleaching treatment to remove lignin fractions of bread residues. The treated biomass was then subjected to a grinding treatment for a homogeneous dispersion of mycelial fibers, where the dispersion was confirmed by microscopic images. The chemically and mechanically processed biomass was used for the preparation of films and nonwoven composites by employing a wet-laid papermaking process. The films exhibited plastic-like features, due to their brittleness and their smooth upper surface. Films and nonwoven composites were characterized on their tensile properties, surface water contact angle and their surface morphology by scanning electron microscopy. Treating fungal biomass by alkali and then bleaching resulted in films with atensile modulus of 3.38 GPa and an ultimate tensile strength of 71.50 MPa. These are the highest reported tensile properties for mycelia derived films to date. Water contact angle measurements confirmed a hydrophobic quality of mycelial films. Scanning electron microscopy showed a very dense and even surface without an obvious fibrous morphology. Fungal biomass and viscose fibers together form a rigid nonwoven composite, in which fungal biomass takes over the role of a natural eco-friendly binding matrix. Flexural rigidity measurements were out of bounds and need to be confirmed by future studies. Additionally, a second strain of fungi, Fusarium venenatum, was cultivated on bread particles in water suspension in order to determine optimum growth conditions for future scale-up investigations.
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Biokonvertering av Brödavfall till Svampfilmer för Textila Applikationer / Bioconversion of Bread Waste to Fungal Films for Textile ApplicationsSyed, Samira January 2023 (has links)
Bread waste represents a significant portion of global food waste, necessitating innovative approaches for its valorization. This research project explores the utilization of bread waste through fermentation with Aspergillus oryzae to produce fungal film which could be used for textile applications. While previous studies have examined various applications of food waste, this project specifically targets the textile industry, aiming to mitigate pollution associated with conventional textile manufacturing. The objective of this project was to investigate the feasibility of creating fungal films derived from bread waste. Additionally, to analyze the material's properties through assessments of tensile strength, microscopic analysis, and the identification of an appropriate methodology for this investigation. The biomass suspension was prepared using an ultrafine grinder, and a kitchen blender was subsequently employed to minimize the presence of remaining solids from the grinding process. Additionally, a range of strategies for film casting and wet laying were implemented and evaluated. Wet laying involved combining fungal biomass with tannin to mimic the characteristics of leather. On the other hand, casting utilized pre-treated biomass suspension to assess the formation and quality of the films. As the research progressed and different tannins were used to treat the biomass, a methodology was developed, and glycerol was introduced as a plasticizer. Furthermore, nanocellulose was later incorporated exclusively for the casting of the films to serve as a binder. The films that were produced gave interesting results are observed in casted sheets containing nanocellulose and glycerol-infused biomass (3% BM + 2% Cellulose + 0.13 g Glycerol), exhibiting exceptional tensile strength (35.1 ± 3.42 MPa) and elongation (16.7 ± 5.98%). Wet laid biomass sheets treated with Tara and glycerol display tensile strength (19.9 ± 3.55 MPa) and elongation (6.66 ± 3.02%). These findings signify the potential for developing fungal films from bread waste, necessitating further research to refine methodologies. Overall, this research project paves the way for future advancements in fungal films derived from bread waste. By investigating the use of Aspergillus oryzae and employing wet laying and casting techniques, the project establishes a foundation for sustainable textile production. The successful utilization of bread waste not only addresses the issue of food waste but also contributes to reducing pollution in the textile industry.
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The COP9 signalosome of Aspergillus nidulans / Regulation of protein degradation and transcriptional pathways in sexual development / The COP9 signalosome of Aspergillus nidulans / Regulation of protein degradation and transcriptional pathways in sexual developmentNahlik, Krystyna 15 September 2007 (has links)
No description available.
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Cultura mista, manipulação química e genética de micro-organismos: estratégias para a diversificação do metabolismo secundário / Mixed culture, chemical and genetic manipulation of microorganisms:strategies for diversifying the secondary metabolism.Chagas, Fernanda Oliveira das 24 April 2014 (has links)
Recentes estudos genômicos têm mostrado que vários fungos e bactérias possuem um potencial biossintético superior à quantidade de me tabólitos secundários já isolados desses micro-organismos. A descoberta de produtos naturais inéditos e bioativos é limitada pela impossibilidade dos micro-organismos expressarem to das as suas rotas biossintéticas em laboratório. Assim, estratégias alternativas para i nduzir a produção de produtos naturais microbianos são necessárias. A utilização de cultur as mistas de micro-organismos é uma estratégia que vem sendo recentemente utilizada, na tentativa de mimetizar condições mais naturais de crescimento. Além disso, a adição de mo duladores químicos e epigenéticos às culturas microbianas também pode potencialmente est imular a produção de compostos de interesse, seja por ativar mecanismos celulares em resposta à condição de estresse, ou por alterar a taxa de transcrição de certos genes, em f unção de mudanças no grau de enovelamento da cromatina. Alternativamente, a indu ção de certos genes, e até mesmo a diversificação do metabolismo secundário, podem ser conseguidos através de engenharia genética, pela manipulação direta de genes de inter esse. A linhagem endofítica Alternaria tenuissima SS77, selecionada para os experimentos de modulaçã o química e epigenética, teve seu metabolismo secundário alterado após o tra tamento com diferentes moduladores. Provavelmente, o efeito observado ocorreu em função de uma eliciação inespecífica dos diferentes moduladores. Além disso, o cultivo misto desse fungo com o fungo endofítico Nigrospora sphaerica SS67 , isolada da mesma planta hospedeira ( Smallanthus sonchifolius ), levou ao isolamento de dois novos policetídeos, da classe das perilenequinonas, juntamente com um já relatado na literatura científica. Para r ealizar os cultivos microbianos mistos, envolvendo uma linhagem bacteriana e uma fúngica, t rês linhagens de actinobactérias e cinco de fungos, todos endofíticos da planta Lychnophora ericoides , foram selecionadas. Alterações no perfil metabólico da cultura mista de Phomopsis sp FLe6 com Streptomyces albospinus RLe7 foram as mais evidentes e por isso a maioria das investigações foram focadas nessa cultura mista. Várias condições de cu ltivo foram testadas e diferentes resultados foram obtidos. Em alguns casos, o desenv olvimento da linhagem fúngica foi inibido pela bacteriana, e em outros, foi observado o inverso. Da mesma forma, houve acentuada inibição da produção de alguns metabólito s secundários na presença da linhagem desafiadora, mas também foi verificada a eliciação de outros. Os extratos das culturas simples desses micro-organismos também apresentaram relativas alterações nos perfis metabólicos em função das condições de cultivo. Os metabólitos produzidos pelo fungo Phomopsis sp FLe6 e pela actinobactéria Streptomyces albospinus RLe7 foram isolados e caracterizados. Os resultados mostram que as intera ções entre os micro-organismos endofíticos são bastante complexas, estando sujeita s a ação de diversos fatores externos que muitas vezes não podem ser pré-determinados. Po r isso, estabelecer um cultivo misto adequado, do ponto de vista da eliciação da produçã o de metabólitos secundários, pode requerer uma série de tentativas. Ainda assim, os r esultados almejados podem ser conseguidos utilizando essa estratégia. Diferenteme nte das linhagens endofíticas, manipuladas quimicamente através de diferentes estr atégias, a linhagem sequenciada de Fusarium heterosporum ATCC 74349, foi manipulada geneticamente para a co nstrução de um gene biossintético híbrido pks-nrps , contendo a porção nrps do gene híbrido da equisetina e um pks críptico de Aspergillus fumigatus . Era esperado que a linhagem hibridizada fosse capaz de produzir o metabólito se cundário geneticamente planejado, entretanto, após seu cultivo, esse produto não foi detectado nos extratos, e as possíveis razões são discutidas. Ainda que os resultados espe rados não tenham sido obtidos, estudos que contribuam para a ampliação do entendimento das megassintases fúngicas são de extrema valia. / Recently, genetic studies have shown that several b acteria and fungi hold a greater biosynthetic potential than the amount of secondary metabolites isolated from these microorganisms. The discovery of novel bioactive na tural products is limited by the inability of microorganisms to express all their biosynthetic pa thways in laboratory conditions. Therefore, alternative strategies to induce the production of microbial natural products are required. Mixed cultures of microorganisms are a strategy tha t has been used to mimic more natural conditions of growth. Furthermore, the addition of chemical and epigenetic modulators to the microbial cultures can also stimulate the productio n of compounds by activating cellular mechanisms in response to stress conditions or by c hanging the transcription rate of certain genes, due to changes in the chromatin folding. Alt ernatively, the induction of some genes, and even the diversification of secondary metabolis m, can be achieved by genetic engineering, by manipulating genes of interest. The endophytic strain Alternaria tenuissima SS77, which was selected for the experiments of che mical and epigenetic modulation, had changed its secondary metabolism after treatment wi th different modulators. Probably, the observed effect was due to a nonspecific elicitatio n of those modulators. Moreover, the mixed cultures of this fungus with the endophytic fungus Nigrospora sphaerica SS67, isolated from the same host plant ( Smallanthus sonchifolius ), led to the isolation of two new polyketides, belonging to perylene quinone class, along with ano ther one already reported in the scientific literature. Three strains of actinobacteria and fiv e fungi, all endophytes of Lychnophora ericoides , were selected to grow in microbial mixed cultures comprising one bacteria and one fungus. Changes in the metabolic profile of the mix ed culture of Phomopsis sp. FLe6 with Streptomyces albospinus RLe7 were the most obvious, and then further studi es were focused on this mixed culture. Many culture conditions were analyzed and different results were obtained. In some cases, the development of the fun gal strain was inhibited by bacteria, and in other cases was observed the opposite. Similarly , there was a remarkable inhibition of the production of certain secondary metabolites in the presence of the challenging strain, but the eliciting of others was also observed. The extracts of the single cultures of these microorganisms also showed changes in metabolic pro files due to culture conditions. The metabolites produced by the fungus Phomopsis sp. FLe6 and the actinobacteria S. albospinus RLe7 were isolated and characterized. The results show that interactions between endophytic microorganisms are quite complex and are influenced by various external factors that often can not be previously determined. Theref ore, establishing a suitable mixed culture to elicit the production of secondary metabolites m ay require some attempts. Still, the expected results can be achieved using this strateg y. Unlike the endophytic strains, that was chemically manipulated by different strategies, the sequenced strain Fusarium heterosporum ATCC 74349 was genetically manipulated to construct a hybrid PKS-NRPS biosynthetic gene containing the NRPS portion of the hybrid gene of e quisetin and a cryptic PKS gene of Aspergillus fumigatus . It was expected that hybridized strain could be a ble to produce the secondary metabolite genetically planned, however, after its cultivation, this product was not detected in any extracts, and some possible reasons are discussed. Although the expected results have not been obtained, studies that contri bute to increasing the understanding of fungal megasynthases are extremely valuable
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Cultura mista, manipulação química e genética de micro-organismos: estratégias para a diversificação do metabolismo secundário / Mixed culture, chemical and genetic manipulation of microorganisms:strategies for diversifying the secondary metabolism.Fernanda Oliveira das Chagas 24 April 2014 (has links)
Recentes estudos genômicos têm mostrado que vários fungos e bactérias possuem um potencial biossintético superior à quantidade de me tabólitos secundários já isolados desses micro-organismos. A descoberta de produtos naturais inéditos e bioativos é limitada pela impossibilidade dos micro-organismos expressarem to das as suas rotas biossintéticas em laboratório. Assim, estratégias alternativas para i nduzir a produção de produtos naturais microbianos são necessárias. A utilização de cultur as mistas de micro-organismos é uma estratégia que vem sendo recentemente utilizada, na tentativa de mimetizar condições mais naturais de crescimento. Além disso, a adição de mo duladores químicos e epigenéticos às culturas microbianas também pode potencialmente est imular a produção de compostos de interesse, seja por ativar mecanismos celulares em resposta à condição de estresse, ou por alterar a taxa de transcrição de certos genes, em f unção de mudanças no grau de enovelamento da cromatina. Alternativamente, a indu ção de certos genes, e até mesmo a diversificação do metabolismo secundário, podem ser conseguidos através de engenharia genética, pela manipulação direta de genes de inter esse. A linhagem endofítica Alternaria tenuissima SS77, selecionada para os experimentos de modulaçã o química e epigenética, teve seu metabolismo secundário alterado após o tra tamento com diferentes moduladores. Provavelmente, o efeito observado ocorreu em função de uma eliciação inespecífica dos diferentes moduladores. Além disso, o cultivo misto desse fungo com o fungo endofítico Nigrospora sphaerica SS67 , isolada da mesma planta hospedeira ( Smallanthus sonchifolius ), levou ao isolamento de dois novos policetídeos, da classe das perilenequinonas, juntamente com um já relatado na literatura científica. Para r ealizar os cultivos microbianos mistos, envolvendo uma linhagem bacteriana e uma fúngica, t rês linhagens de actinobactérias e cinco de fungos, todos endofíticos da planta Lychnophora ericoides , foram selecionadas. Alterações no perfil metabólico da cultura mista de Phomopsis sp FLe6 com Streptomyces albospinus RLe7 foram as mais evidentes e por isso a maioria das investigações foram focadas nessa cultura mista. Várias condições de cu ltivo foram testadas e diferentes resultados foram obtidos. Em alguns casos, o desenv olvimento da linhagem fúngica foi inibido pela bacteriana, e em outros, foi observado o inverso. Da mesma forma, houve acentuada inibição da produção de alguns metabólito s secundários na presença da linhagem desafiadora, mas também foi verificada a eliciação de outros. Os extratos das culturas simples desses micro-organismos também apresentaram relativas alterações nos perfis metabólicos em função das condições de cultivo. Os metabólitos produzidos pelo fungo Phomopsis sp FLe6 e pela actinobactéria Streptomyces albospinus RLe7 foram isolados e caracterizados. Os resultados mostram que as intera ções entre os micro-organismos endofíticos são bastante complexas, estando sujeita s a ação de diversos fatores externos que muitas vezes não podem ser pré-determinados. Po r isso, estabelecer um cultivo misto adequado, do ponto de vista da eliciação da produçã o de metabólitos secundários, pode requerer uma série de tentativas. Ainda assim, os r esultados almejados podem ser conseguidos utilizando essa estratégia. Diferenteme nte das linhagens endofíticas, manipuladas quimicamente através de diferentes estr atégias, a linhagem sequenciada de Fusarium heterosporum ATCC 74349, foi manipulada geneticamente para a co nstrução de um gene biossintético híbrido pks-nrps , contendo a porção nrps do gene híbrido da equisetina e um pks críptico de Aspergillus fumigatus . Era esperado que a linhagem hibridizada fosse capaz de produzir o metabólito se cundário geneticamente planejado, entretanto, após seu cultivo, esse produto não foi detectado nos extratos, e as possíveis razões são discutidas. Ainda que os resultados espe rados não tenham sido obtidos, estudos que contribuam para a ampliação do entendimento das megassintases fúngicas são de extrema valia. / Recently, genetic studies have shown that several b acteria and fungi hold a greater biosynthetic potential than the amount of secondary metabolites isolated from these microorganisms. The discovery of novel bioactive na tural products is limited by the inability of microorganisms to express all their biosynthetic pa thways in laboratory conditions. Therefore, alternative strategies to induce the production of microbial natural products are required. Mixed cultures of microorganisms are a strategy tha t has been used to mimic more natural conditions of growth. Furthermore, the addition of chemical and epigenetic modulators to the microbial cultures can also stimulate the productio n of compounds by activating cellular mechanisms in response to stress conditions or by c hanging the transcription rate of certain genes, due to changes in the chromatin folding. Alt ernatively, the induction of some genes, and even the diversification of secondary metabolis m, can be achieved by genetic engineering, by manipulating genes of interest. The endophytic strain Alternaria tenuissima SS77, which was selected for the experiments of che mical and epigenetic modulation, had changed its secondary metabolism after treatment wi th different modulators. Probably, the observed effect was due to a nonspecific elicitatio n of those modulators. Moreover, the mixed cultures of this fungus with the endophytic fungus Nigrospora sphaerica SS67, isolated from the same host plant ( Smallanthus sonchifolius ), led to the isolation of two new polyketides, belonging to perylene quinone class, along with ano ther one already reported in the scientific literature. Three strains of actinobacteria and fiv e fungi, all endophytes of Lychnophora ericoides , were selected to grow in microbial mixed cultures comprising one bacteria and one fungus. Changes in the metabolic profile of the mix ed culture of Phomopsis sp. FLe6 with Streptomyces albospinus RLe7 were the most obvious, and then further studi es were focused on this mixed culture. Many culture conditions were analyzed and different results were obtained. In some cases, the development of the fun gal strain was inhibited by bacteria, and in other cases was observed the opposite. Similarly , there was a remarkable inhibition of the production of certain secondary metabolites in the presence of the challenging strain, but the eliciting of others was also observed. The extracts of the single cultures of these microorganisms also showed changes in metabolic pro files due to culture conditions. The metabolites produced by the fungus Phomopsis sp. FLe6 and the actinobacteria S. albospinus RLe7 were isolated and characterized. The results show that interactions between endophytic microorganisms are quite complex and are influenced by various external factors that often can not be previously determined. Theref ore, establishing a suitable mixed culture to elicit the production of secondary metabolites m ay require some attempts. Still, the expected results can be achieved using this strateg y. Unlike the endophytic strains, that was chemically manipulated by different strategies, the sequenced strain Fusarium heterosporum ATCC 74349 was genetically manipulated to construct a hybrid PKS-NRPS biosynthetic gene containing the NRPS portion of the hybrid gene of e quisetin and a cryptic PKS gene of Aspergillus fumigatus . It was expected that hybridized strain could be a ble to produce the secondary metabolite genetically planned, however, after its cultivation, this product was not detected in any extracts, and some possible reasons are discussed. Although the expected results have not been obtained, studies that contri bute to increasing the understanding of fungal megasynthases are extremely valuable
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