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Biodegradation of 17alfa-ethinylestradiol by enzymes of ligninolytic fungi
Přenosilová, Lenka ; Stiborová, Marie (advisor) ; Černá, Věra (referee)
This work is aimed at the study of the effect of 17α-ethinylestradiol (EE2) on the production and characteristics of ligninolytic enzymes (laccase, Mn-dependent peroxidase and lignin peroxidase) in I. lacteus, T. versicolor, P. chrysosporium and P. ostreatus cultures grown on two types of liquid media. Enzyme activity production in fungal cultures was affected by the composition of culture medium. In the case of P. chrysosporium, the addition of EE2 to the complex- medium cultures led to a MnP activity stimulation and simultaneously LiP production was partially repressed in these cultures. In the mineral MM medium, no effect of EE2 on enzyme production by P. chrysosporium was observed. In EE2 treated MM cultures of P. ostreatus lower MnP activities were found when compared to biotic controls. In the case of T. versicolor cultures, the addition of EE2 to the complex medium caused laccase and LiP stimulation in the cultures. In the MM medium, however, only laccase production was affected by EE2. I. lacteus MnP production was partially repressed by EE2 in MM medium. In contrast to that, significantly higher MnP activities were detected in complex- medium I. lacteus cultures after the treatment with EE2. Further EE2 degradation by the fungal cultures was studied. The highest degradation effeciency was...
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Application of ligninolytic fungi on solid substrates for degradation of endocrine disrupters
Slavíková - Amemori, Anna ; Cajthaml, Tomáš (advisor) ; Gabriel, Jiří (referee)
Today a lot of attention is focused on compounds called endocrine disrupters (EDs) among substances released to environment by humans. They are a group of substances which can disturb function of hormonal system of organisms including humans. Their poor removal at wastewater treatment plants (WwTP) were shown at various studies, thus they can reach the environment in water. A prospective way for the degradation of EDs at WwTP can be their removal by ligninolytic fungi. They are able to degrade lots of lignin-like aromatic substances because of their highly nonspecific enzymes. In this work growth and enzyme production capability of four ligninolytic fungal strains were monitored on three solid substrates (straw pellets, poplar sawdust mixed with straw pellets, oak sawdust with straw pellets), which may be suitable substrates for fungal growth in bioreactors for wastewater treatment. Ability of these enzymes to degrade EDs were tested in in-vitro degradation experiment. Trametes versicolor was found as best degrading strain with 20 μg/ml of bisphenol A, 17 α- ethynylestradiol and nonylphenol degraded below a quantification limit within 24 hours. Fungal strains degraded EDs well on all of the three substrates but wood sawdust seemed to be a better substrate for fungal growth because straw pellets...
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Biodegradation of polychlorinated biphenyls by white - rot fungi and their enzymes
Linhartová, Lucie ; Bořek Dohalská, Lucie (advisor) ; Černá, Věra (referee)
Polychlorinated biphenyls (PCB) represent relevant persistent organopollutants of the environment and the estimated amount of PCB released into the environment is 750000 metric tons. White-rot fungi have been studied for long time due to their degradative potential toward various aromatic pollutants and it is known that these fungi are able to decompose PCB in vivo. Biodegradation of PCB by the fungus Pleurotus ostreatus was studied in the frame of this work. A high degradative efficiency of P. ostreatus was observed in the first set of experiments, even in the presence of relative high amount of added PCB. Fungus was able to transform 780±50 µg out of the intial amount 1000 µg in 20 ml of a cultivation media within 42 days. A decrease in toxicity was recorded during the degradation that suggests the suitability of this organism for a practical use in decontamination. In vitro experiments with purified laccase induced with Cu2+ from this fungus did not prove any participation of the enzyme in the first step of PCB transformation. The enzyme did not show an ability to degrade PCB even after purification from cultivation media containing PCB. It was found that the first step of PCB transformation can be performed by an intracellular process with microsomal fraction. A degradation of 44-67% was observed for...
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Laccase activity profiling in Trametes versicolor cultures degrading endocrine-disrupting compound Delor 103
Plačková, Martina ; Svobodová, Kateřina (advisor) ; Mikušová, Gabriela (referee)
In this work endocrine disrupting potential of Delor 103, a commercial mixture of PCB congeners, was studied along with its effect on production of laccase by the ligninolytic fungus Trametes versicolor. Using a gene-reporter yeast assay for evaluation of hormonal activity Delor 103 showed an androgenic activity with an EC50 value of 2.29. 10-2 mg/l. Chlorbenzoic acids, Delor 103 potential metabolites resulting from microbial degradation, displayed on the other hand an estrogenic activity, indicating possible changes in hormonal activity of Delor 103 during its microbial degradation. The addition of Delor 103 to mineral medium T. versicolor cultures resulted in an up to 257times higher laccase activities detected in fungal cultures. Delor 103 induced enzymes showed different pI values from those of control cultures. In a complex malt-extract glucose medium (MEG) the stimulation effect of Delor 103 was kept down. Further, the production of laccase and synthesis of different pI forms depended strongly on the growth phase of fungal cultures. Exponencially growing cultures of T. versicolor were able to produce up to 7 different pI forms of laccase in responce to Delor 103 whereas stationary cultures produced only 4 enzyme forms with higher pI values. Stimulation of laccase activities in T. versicolor,...
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The employment of wastes from food production
Hurčíková, Andrea ; Babák, Libor (referee) ; Omelková, Jiřina (advisor)
The waste from agricultural and food industry are accessible in large quantity anywhere in the whole world nowadays. Most of these wastes include cellulose (30 - 40 %), hemicellulose (20 - 40 %) and lignine (10 - 20 %). Therefore these waste materials have wide use as the substrates for the microbial growth and the production of the enzymes. The microorganisms are able to use organic compounds from the wastes as the source of energy for the growth and carbon for synthesis of cellular biomass [24]. Wheat and rice straw are possible to use as the substrates for cultivation of the microorganisms and following production of the enzymes. In this thesis the utilization of the wastes from food industry for the production of the enzymes by the microorganisms was studied. We observed utilization of wheat straw as source of energy for growth of tested microorganisms and investigated their ability for the production of oxidoreductase (laccase). The optimalization of growth conditions of Aureobasidium pullulans was proceeded. Further the activity of laccase was studied. Milled wheat straw was used as the substrate. The cultivation was done in the thermoregulator at the temperature of 27°C. The activity of laccase was not found in this thesis. Petri dishes were contaminated by three unknown microoganisms during optimalization of growth of Aureobasidium pullulans. One of them produced laccase in cultivation with straw.
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Spatial and temporal dynamics of enzyme activity distribution in soils with respect to soil fungi
Baldrian, Petr ; Šnajdr, Jaroslav ; Valášková, Vendula ; Cajthaml, Tomáš ; Merhautová, Věra
Activity of laccase, Mn-peroxidase, endo-1,4-β-glucanase, endo-1,4-β-xylanase, cellobiohydrolase, β-glucosidase and β-xylosidase in forest soil (with dominant Quercus sp.) exhibited high but inconsistent variation. Enzyme activity decreased with soil depth as well as fungal biomass and the fungal/bacterial biomass ratio
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