45 resultados para Trichosporon beigelii
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Trichosporon beigelii was isolated from four and three Holstein heifers with clinical and subclinical mastitis respectively, during the extension activities of Nucleus of Mastitis Research - NUPEMAS - FMVZ - UNESP - BOTUCATU - BRAZIL. This fungus is considered extremely important because it is responsible for superficial skin infections, known as white piedra. According with literature, there is no record of isolation of this agent from mastitis in Brazil. This fact confirms the importance of microbiological studies to lead the treatment correctly to prevent the increase of bacterial resistance and secondary fungal infections that uses the inefficient antimicrobial as substratum for its development.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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INTRODUÇÃO: Piedra branca é micose superficial causada por fungos do gênero Trichosporon e caracterizado por nódulos firmemente aderidos à haste do pêlo. MÉTODOS: Os autores relatam casos familiares encaminhados como pediculose. Foram utilizados cultura em ágar Mycosel® e identificação molecular. RESULTADOS: Exame micológico revelou a infecção por Trichosporon spp. A identificação molecular demonstrou se tratar do Trichosporon inkin. CONCLUSÕES: Piedra branca e infecção pelo T. inkin são raramente relatados na região sudeste do Brasil. A identificação molecular é essencial para correta determinação de espécies no gênero Trichosporon.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Microbiologia - IBILCE
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The biofilms formed by opportunistic yeasts serve as a persistent reservoir of infection and impair the treatment of fungal diseases. The aim of this study was to evaluate photodynamic inactivation (PDI) of biofilms formed by Candida spp. and the emerging pathogens Trichosporon mucoides and Kodamaea ohmeri by a cationic nanoemulsion of zinc 2,9,16,23-tetrakis(phenylthio)-29H,31H-phthalocyanine (ZnPc). Biofilms formed by yeasts after 48 h in the bottom of 96-well microtiter plates were treated with the photosensitizer (ZnPc) and a GaAlAs laser (26.3 J cm(-2)). The biofilm cells were scraped off the well wall, homogenized, and seeded onto Sabouraud dextrose agar plates that were then incubated at 37A degrees C for 48 h. Efficient PDI of biofilms was verified by counting colony-forming units (CFU/ml), and the data were submitted to analysis of variance and the Tukey test (p < 0.05). All biofilms studied were susceptible to PDI with statistically significant differences. The strains of Candida genus were more resistant to PDI than emerging pathogens T. mucoides and K. ohmeri. A mean reduction of 0.45 log was achieved for Candida spp. biofilms, and a reduction of 0.85 and 0.84, were achieved for biofilms formed by T. mucoides and K. ohmeri, respectively. Therefore, PDI by treatment with nanostructured formulations cationic zinc 2,9,16,23- tetrakis (phenylthio)- 29H, 31H- phthalocyanine (ZnPc) and a laser reduced the number of cells in the biofilms formed by strains of C. albicans and non-Candida albicans as well the emerging pathogens T. mucoides and K. ohmeri.
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Trichosporon spp. has gained importance as the cases of immunosuppressed patients increase. The genus Trichosporon includes 6 species of clinical relevance that may cause supericial infections, such as white piedra and onychomycosis, or deep and invasive infections with high mortality rates. These microorganisms have a broad geographical distribution and some species are resistant to antifungal drugs in vitro. The present paper is a review on the virulence factors, associated infections, and in vitro susceptibility of the species with the highest incidence as pathogenic agents in humans.
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Passalidae (Polyphaga, Coleoptera) is a family of beetles with approximately 960 species that are distributed worldwide. Preliminary studies that characterized ascomycete and basidiomycete yeasts in the gut of these wood-eating beetles from the USA, Guatemala, and Thailand, demonstrated associations between certain yeast taxa and passalids. We extended the study to include yeasts and beetles from tropical forests near Cairns and Brisbane, Queensland, Australia. We isolated more than 1000 yeast strains from about 150 beetles belonging to 10 species. LSU and ITS rRNA markers were used to identify a subset of 250 yeast strains, which revealed that the gut of Australian passalids contained undescribed ascomycetes in the Debaryomyces, Dipodascus, Kazachstania, Ogataea, Scheffersomyces, Sugiyamaella, Spathaspora, Torulaspora, and Zygowilliopsis clades, as well as basidiomycetes in the genera Cryptococcus and Trichosporon. A close relative of Candida subhashii (Spathaspora clade) and the xylose-fermenting yeast Scheffersomyces stipitis were the most common species isolated in Queensland. These results agree with those of previous studies that showed a common association of xylose-fermenting yeasts in the gut of lignicolous insects. Species and higher taxa of yeasts, however, vary between Queensland passalids and those previously collected in distant regions.
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Phenol- and catechol-adapted sludges contained large numbers of the yeasts, Candida tropicalis and Trichosporon cutaneum. Both were able to grow on a variety of aromatic compounds and utilized phenol and catechol at a high rate. This property was inducible. The feasibility of using these yeasts for removing phenols from waste waters is suggested.
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分离和筛选了5种能有效防治采后果实病害的拮抗菌。其中,季也蒙假丝酵母(Candida guiliermondii(Cast) Langeroret Guerra)从引种拮抗菌中筛选获得,枯草芽孢杆菌(Bacillus subtilis)B-912从土壤中分离筛选获得,膜醭毕赤酵母(Pichia membranefaciens hansen)从桃果实伤口上分离获得,隐球酵母(Cryptococcus albidus (Saito) Skinner)和丝孢酵母(Trichosporon sp.)从桃果实表面分离获得。本文主要研究了这些拮抗菌对桃、油桃、苹果、梨和柑桔等我国主要水果采后病害的防治效果,并对其可能的抑菌机理进行了初步研究。结果如下: 1. Sx108 CFU/mL的C.guiliermondii和P.membranefaciens悬浮液可完全抑制病菌孢子浓度为5x104个/mL时桃和油桃果实软腐病(Rhizopus stolonifer(Ehrenb.ex Fr.) Vuill.)在25℃,15℃和3℃下的发生。lx108 CFU/mL的C.albidus和Trichosporon sp.悬浮液可完全抑制孢子浓度分别为lx105个/mL和5x104个/mL时苹果灰霉病(Botrytis cinerea)和青霉病(Penicillum expansum)在23℃-25℃和1℃下的发生。C.albidus和Trichosporon sp.对梨灰、青霉病也有一定抑制效果。B-912对柑桔果实青霉病(Penicillium italicum)、绿霉病(Penicillium digitatum)和核果类果实褐腐病(Monilinia fructicola)也有极好的抑制效果。生物防治效果与拮抗菌的浓度成正比,与病菌孢子浓度成反比。 2.拮抗酵母菌在室温和冷藏条件下都能迅速在果实伤口定殖,接种酵母菌48 h后,数量可增加20倍以上。拮抗菌和病菌孢子的接种时间与生物防治效果有关,先接种拈抗菌的抑菌效果显著地好于同时或后于病菌接种的效果。 3.温度对拮抗酵母菌的抑菌活力没有明显影响,无论是在室温还是在冷藏条件下,拮抗酵母菌都有同样的抑菌效果。但拮抗细菌B-912的抑菌效果与温度有一定关系。较高的温度有利于细菌拮抗作用的发挥。 4.拮抗菌能与常规的果实采后处理措施如钙处理、化学杀菌剂、冷藏和气调贮藏相结合。酵母菌与2% CaC12配合能明显地增强其抑菌能力;拮抗菌与低浓度的杀菌剂如扑海因混合使用,可达到高浓度杀菌剂的抑病效果;C.albidus和Trichosporon sp.对果实采后气调贮藏环境有良好的适应性,它们在气调下对采后苹果、梨的灰霉病和青霉病的抑制效果比冷藏条件下的好。 5.细菌B-912的抑菌机理与其产生抗菌素有关,B-912的滤液在in vitro上能有效地抑制病菌孢子的萌发,在invivo上也能明显地抑制果实采后病害的发生。拮抗酵母菌的抑菌机理则较复杂,但主要与病菌竞争营养有关,同时,C.guilliermondii和P.membranefaciens对软腐菌的抑制还通过产生水解酶如β-1,3一葡聚糖酶和几丁酶与病原菌直接作用,并参与诱导寄主产生抗性等
