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Production of galactosidases by yeasts of genus Cryptococcus growing on lactose medium
Pavlatovská, Barbora ; Molnárová,, Jana (referee) ; Stratilová, Eva (advisor)
This work focuses on the induction of galactosidases by yeasts of genus Cryptococcus growing on lactose medium and relations between this production and growth of yeasts. At the end biotyping using mass spectrometry is described. All tested and relative yeasts, hydrolytic enzymes -, -galactosidase and used analytical methods as UV-VIS spectrophotometry and mass spectometry, especially MALDI-TOF are described in the theoretical part. The experimental part consists of description of instrumentations, preparation of necessary solutions, cultivation of microorganisms, measurement of enzymatic activity spectrophotometrically and biotyping of yeasts by mass spectrometry. Each of the 18 tested yeast strains, including species Cr. canescens (CCY 17-3-13), Cr. flavescens (CCY 17-3-6, CCY 17-3-15, CCY 17-3-29, CCY 17-3-31, CCY 17-3-33, CCY 17-3-38), Cr. flavus (CCY 17-3-5), Cr. laurentii (CCY 17-3-2, CCY 17-3-9, CCY 17-3-17, CCY 17-3-24), Cr. magnus (CCY 17-4-39, CCY 17-4-40), Cr. saitoi (CCY 17-3-18), Cr. victoriae (CCY 17-3-26) and Bulleromyces albus (CCY17-3-35, CCY 17-3-37) from the Culture Collection of Yeasts, Institute of Chemistry of SAS (CCY), was cultured for 96 hours in a liquid medium with lactose. During cultivation, the quantity of cells was determined as well as enzyme activities of - and -galactosidase in the medium and on the cell surface. Lactose medium was shown not to be suitable culture medium for all Cryptococcus strains, because some of them grew on it very slowly (CCY 17-3-29, CCY 17-3-5, CCY 17-3-26, CCY 17-3-35), or showed a long adaptation phase (CCY 17-3-2, CCY 17-3-6). A comparison of the growth and surface -galactosidase production curves showed that the link between lactose medium and production of this enzyme does not exist in generally. The results did not confirm neither the expected impact of this enzyme on the growth of strains nor the anticipated induction of -galactosidase by lactose. For instance, the fastest growth on lactose showed the strain Cr. canescens CCY 17-3-13, which exhibited a very low activity of this enzyme on its surface. Relatively increased production of this enzyme was observed on the surfaces of the type strain Cr. laurentii CCY 17-3-2, strain Cr. flavescens CCY 17-3-31 and Cr. flavus CCY 17-3-5. The production of -galactosidase by capsular yeasts was strain-dependent with the exception of the members of Cr. flavescens species. Because of this, the expected general influence of this enzyme on the re-building of the protective cryptococcal capsule can be excluded. Only Cr. flavescens strains can be generally considered as producers of lactose-inducible surface -galactosidase. In other cases, the production of this enzyme matters on single strain and not on species, as can be seen in the case of type strain Cr. laurentii and the other Cr. laurentii strains. Similar induction by lactose medium was also observed with non-cryptococcus yeasts and fungi and therefore the link with the capsules can be also excluded. In connection with the selected culture medium, the second aim of this work was to test the suitability of lactose medium for genus Cryptococcus biotyping by mass spectrometry. Normalized spectra showed very low score between strains of the same species and as a consequence, close related strains were included in the different evolutionary branches using Biotyper programme. These findings led to the conclusion that lactose medium is an unsuitable medium.
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Effect of culture medium on the identification of yeasts of the genus Cryptococcus using mass spectrometry
Jurnečková, Alena ; Vadkertiová, Renata (referee) ; Stratilová, Eva (advisor)
Cryptococccus genus is known for its difficult identification and taxonomical classification in area of clinical microbiology. For this bachelor thesis, total 22 yeast strains of the Cryptococcus genus were chosen. The part of strains was firstly analyzed by D1/D2 domain LSU rRNA gene analysis. Three types of culture medium – YPD, potato dextrose agar and Sabouraud’s medium were selected for cultivation. Samples were prepared according to standardized method of Bruker Daltonik company, Institute of Chemistry of SAS and combination of these two methods. Identification was done by MALDI-TOF mass spectrometry. Obtained spectra were compared using corresponding software and evaluated on the basis of specific algorithm. The most advantageous culture medium for cultivation and biotyping with the largest percentage score was YPD (Yeasts pepton dextrose). On the other hand, the least advantageous culture medium was Sabouraud’s agar, which reached the smallest percentage success due to parameters of Bruker Daltonik algorithm. The most succesfull method of sample preparation and application was the combined method with YPD as a culture medium. The results of complete analysis are dendrograms for each medium showing the genetic similarity of yeast strains. The dendrogram shows categorization of the single strains into appropriate groups. Cr. flavescens (CCY 17-3-28, CCY 17-3-30) and Cr. laurentii (CCY 17-3-2) strains were correctly integrated into phylogenetic group Cr. laurentii I (branch in the dendrogram with designation A). Cr. flavus (CCY 17-3-5) doesn’t belong to this group, although it shows similarity with Cr. flavescens. The strains Cr. carnescens (CCY 17-3-13) and Cr. victoriae (CCY 17-3-26) belong to the phylogenetic group Cr. laurentii II (designated as B). Cr. magnus (CCY 17-4-39, CCY 17-4-40) strains show similarity with these strains, but doesn’t belong to the phylogenetic group II. The strains Cr. gastricus (CCY 17-5-1) and Cr. diffluens (non-attached) form a branch designated as C. Cr. aerius (CCY 17-4-9) strain, which was also put into this group, was proposed to sequence analysis, because its spectrum indicates that it should be rather a Cr. diffluens strain. The group D contains Bulleromyces albus (CCY 17-3-35, CCY 17-3-36) and Cr. saitoi (CCY 17-3-18, CCY 17-4-2) strains. The sequenced Cr. albidus (CCY 17-4-1), non-sequenced Cr. diffluens (CCY 17-4-13) and Cr. terreus (CCY 17-8-1) form the group E. The strain CCY 17-4-13 was proposed to sequence analysis because of occurrence of the Cr. diffluens sequenced strain in the group C. The sequenced Cr. aerius (CCY 17-25-1) is also part of this group, but it represents a separate branch. The last group is named as F and consists of Cr. macerans (CCY 17-19-3) and control strains Cr. neoformans var. neoformans (CCY 17-1-4, CCY 17-1-5).
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Biotyping of ascomycetous yeasts
Jurnečková, Alena ; Dudášová,, Hana (referee) ; Stratilová, Eva (advisor)
In total, 84 yeast strains (originated from water, plants, fruits and soil) were selected for MALDI-TOF biotyping. All strains were cultivated on malt agar and YPD medium. Samples for biotyping were processed according to methods of Bruker Daltonik GmbH company, Institute of Chemistry of SAS and combination of these methods. Single strains were identified based on the analysis of intracellular ribozomal proteins using MALDI-TOF mass spectrometry. In case of ambiguous results, the DNA was isolated and the D1/D2 26S rRNA domain sequencing was performed. The strain identification was carried out by comparing its mass spectra with spectra of sequenced strains using MALDI Biotyper 3.0 software. The mutual similarity of strains was considered by score value, which was the result of the analysis. In total, 18 strains from 84 were previously sequenced and used as model strains for comparison with unknown isolates. Altogether 51 strains were definitely taxonomically categorized into 18 phylogenetic groups at the species level. The MALDI-TOF biotyping was repeated for overall 6 strains because of ambiguity of results. The taxonomic classification of 15 strains was not clearly determined and, therefore, these strains were suggested for D1/D2 26S rRNA domain sequencing. It was not possible to identify one strain, based on the results of sequencing, therefore, the DNA isolation was repeated. In the case of 8 strains, the results were identical with originally designed taxonomic classification. Conversely, the remaining 6 strains were identified as species. For 20 selected strains the basic characteristics were determined using microbiological methods. The shape of colonies growing on solid medium and appearance of cultures in liquid medium was assessed. Furthermore, the radial growth constant and the presence of urease were determined. Finally the microscopic observation of cells and the fermentation test for carbohydrate substrates were performed.
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Partial purification and characterization of polygalacturonases of Geotrichum candidum.
Jäger, Jakub ; Breierová, Emília (referee) ; Stratilová, Eva (advisor)
This work discusses the possibilities of using microbial degradation of grape pomace, main waste material from wine production, to preparate industrially important enzymes. The issue is focused on the production of pectolytic enzymes, particularly polygalacturonase, by Geotrichum candidum CCY 16-1-29 via solid state fermentation on grape pomace. The theoretical part of the bachelor thesis focuses on studying plant cells and saccharides from which the plant cell wall is made of, mainly pectin. Cell wall sacharides were used as a carbon source for solid state fermentation (SSF) and pectin as an inductor of pectolytic enzymes. This bachelor thesis also deals with the enzymatic degradation of cell wall polysacharides. The greatest attention is paid to degrade pectin and pectolytic enzyme function. Production of pectolytic enzymes is mentioned subsequently. The last chapter from the theoretical part is dedicated to technical use of pectolytic enzymes. In the experimental part of this work I deal with the partial purification and characterization of majority polygalacturonase produced on the seventh day of cultivation, when another increase of extracellular polygalacturonase activity occurred. The yield of cultivation was 43,5 mg of protein extract /100 g of grape pomace. The extract contained protein, and its activity was lyophilisate. Its specific activity was protein. The enzyme was produced in at least four forms differing in pH optimum (4,0; 4,4; 4,8; 5,2). The pH optimum for majority polygalacturonase was 4,8. Action pattern of this enzyme determined as the dependence of polymeric substrate viscosity decrease on its degradation showed that the enzyme is a typical polygalacturonase with random action pattern (EC 3.2.1.15).Value of Km reached indicating a high affinity for this substrate. The amino acid sequence "SNNVVSNVNILSSQVVNSDNGVR" obtained by mass spectrometry after SDS-PAGE and tryptic digestion, was identified as a stretch of primary structure of polygalacturonase of Ap2PG1 G. candidum based on the comparison with proteins from the Uniprot database. It shows the highest similarity with other polygalacturonases of G. candidum S31PG1, S31PG2 and G. klebahnii PSE3. On the basis of this similarity to enzymes produced by phytopathogenic strains of G. candidum and the fact that this enzyme was not produced only in the early stages of cultivation, it can be assumed, that the strain of G. candidum CCY 16-1-29 acted also as a phytopathogenic strain.
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Extracellular enzyme activites of soil yeasts
Pavlatovská, Barbora ; Breierová, Emília (referee) ; Stratilová, Eva (advisor)
Yeasts form significant and important part of pedosphere microbiota. They keep nature balance, participate in cycles of elements and nutrients, are antagonists of various pathogens and as important decomposers, they produce the whole spectrum of different extracellular enzymes. The aim of this study was to determine the ability of yeasts, isolated from the soil adjacent to the fruit trees in Southwest Slovakia as well as from the contaminated soil (Pernek area, Slovakia), to produce extracellular enzymes. In total, 68 strains belonging to 45 different species were tested for the production of starch-like polysaccharide and for extracellular enzyme activities: polygalacturonases, lipases, proteases, cellulases, chitinases, -glucosidases and -amylases. This work was also focused on optimization of method for the yeast chitinase assay. Four methods were proved; two of them utilized liquid medium with chitin (colloidal and insoluble) as the sole carbon source and two others used solid plate methods with agar medium containing chitin. Based on results, cultivation in colloidal liquid chitin medium, terminated by the chitinase assay according to Ehrlich, was evaluated as the best method for detection of predominant exochitinase activity of yeasts. More than 75 % of tested yeasts exhibited some extracellular activity. Generally, the yeasts isolated from the soil under the fruit trees showed broader spectrum of enzyme activities than those originated from contaminated soils. Lipases, proteases and -glucosidases were found to be the most common activities. Only small proportion of yeasts was able to produce chitinases and/or cellulases. Aureobasidium pullulans, CCY 27-1-134, from the soil adjacent to the apple tree, showed the widest range of activities from all tested strains and it possessed all examined activities. On the other side, it did not produce starch-like polysaccharide. Tausonia (Trichosporon) pullulans and Cystofilobasidium macerans were the second most active producers of extracellular enzymes with variations in production of cellulases and -amylases. Representatives of the former polyphyletic genus Cryptococcus exhibited lipases, -glucosidases, -amylases and they were producers of the starch, but the interspecies differences were also noted. All strains of the genus Galactomyces were positive for polygalacturonases and the genera Candida and Cyberlindnera were positive for -glucosidases. All strains of Galactomyces candidum were tested for the production of polygalacturonases during 168 hours long cultivation on pectin media. Strain CCY 16-3-4 showed very stable growth on this medium and simultaneously exhibited significant amount of extracellular polygalactouronases. It has a potential to be very suitable producer of these enzymes but particular characterization of properties is necessary for its future use. Results of the screening showed that the production of extracellular enzymes is mostly strain-dependent and not species-dependent.
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Microbial Degradation of Polycaprolactone-based Materials
Damborský, Pavel ; Stratilová, Eva (referee) ; Hermanová, Soňa (advisor)
Diplomová práce se zabývá vlivem nutričních a aeračních faktorů na produkci lipáz bakterií Bacillus subtilis (CCM 1999). Produkce lipáz byla studována zejména z hlediska katalytického působení lipáz při degradaci polyesterových řetězců. Mezi studované parametry patřily: růst bakterií, lipolytická aktivita, pH optimum, teplotní optimum, tepelná stabilita, proteolytická aktivita, množství bílkovin, atd. a to v různých typech živných medií zaočkovaných Bacillus subtilis. Jedna série vzorků kultivačních médií pro BS na bázi: pepton a kvasničný extrakt (NB), pepton, kvasničný extrakt s 2% přídavkem (w/v) glukózy (NBG) a minerální médium s kvasničným extraktem (MS-YE) obsahovala jeden PCL vzorek o definovaných rozměrech (Mn = 10 kDa, = 1.4). Experimenty probíhaly po dobu 21 dnů pří rychlosti třepání 160 a 200 rpm. Přítomnost PCL způsobila v obou typech médií (NB, NBG) inokulovaných BS zvýšení lipolytické aktivity, což naznačuje, uvolnění a následné uplatnění se nízko-molekulekulárních řetězců PCL jako substrátů pro BS. BS kultivovaný v MS-YE medium vykazoval ve srovnání s NB a NBG médii nízké hodnoty lipolytické aktivity a to i v přítomnost PCL. Během experimentů se hodnota pH posunula z neutrální (pH 7.0) do alkalické (pH 8.5-9.3) oblasti a to ve všech typech médií s i bez přítomnosti PCL vzorku v důsledku metabolických pochodů BS využívajících různé substráty. Lipolytické enzymy stanovené v supernatanech bez bakteriálních buněk vykazují dvě pH optima v přítomnosti PCL, pH 7 a 9. V nepřítomnosti polymeru vykazují pouze jedno pH optimum při pH 7. Na základě měření tepelné stability bylo prokázáno, že extracelulární lipázy jsou relativně termostabilní enzymy, zejména v nepřítomnosti polymeru. Dále byla provedena základní proteomická analýza lipáz produkovaných bakterií Bacillus subtilis v NBG médiu pomocí metody peptidového mapování (PMF). Byla ověřena přítomnost proteinů s molární hmotnosti (19.3 kDa) pomocí FPLC. SDS-PAGE a IEF-PAGE prokázaly přítomnost těchto proteinů v obou studovaných mediích inokulovaných BS (NBG vs. NBG/PCL). Zásadní rozdíly proteinového složení v přítomnosti PCL nebyly potvrzeny a identifikace pomoci MALDI-TOF hmotnostní spektrometrie nestanovila žádnou lipázu. Proces degradace v PCL vzorcích byl vyhodnocen také na základě hmotnostních úbytků, které byly zjištěny ve všech typech médií inokulovaných BS pravděpodobně v důsledku synergického účinku enzymaticky-katalyzované a biotické hydrolýzy v alkalickém prostředí. . Modelová degradační studie PCL a jeho kompozitu s oxidem grafenu (2.7 hm.%, GO) byla provedena v přítomnosti bakterie Bacillus subtilis v NBG při 30 °C a počátečním pH 7 po dobu tří týdnů. Hmotností úbytky PCL filmů se postupně zvyšovaly během celého degradačního testu až ke 12 hm%. Degradace PLC/GO kompozitu probíhala pomaleji, což je prokázáno maximální hmotnostním úbytkem 5 hm%. Podobný charakter elučních křivek PCL a jeho kompozitu stanovený pomocí SEC potvrzoval snížení molární hmotnosti po degradaci.
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Effect of medium composition on the mass spectra of the yeast species of Cryptococcus laurentii and Cryptococcus flavescens
Ledvina, Vojtěch ; Breierová, Emília (referee) ; Stratilová, Eva (advisor)
Cryptococcus laurentii and Cryptococcus flavescens are nonfermenting yeasts forming extracellular polysaccharide capsule. Both species are mainly saprofytic but Cr. laurentii is also known to be an opportunistic pathogen in immunocompromised patients. Cr. flavescens used to be considered a synonym of Cr. laurentii but nowadays it is classified as a separate species that belongs to the phylogenetic group I of the Cr. laurentii group. In the experimental part 28 strains of species Cr. laurentii, Cr. flavescens a Cr. victoriae were biotyped using MALDI-TOF MS. The yeasts were cultivated on three different media (Sabouraud, YPD and potato agar) and three methods were used for the protein extraction. The impact of growth medium composition from which the strains were inoculated on the quality of spectra was studied together with the suitability of individual methods for use on different media. Then the impact of growth medium composition on the quality of acquired spectra was evaluated. Finally, all strains were compared mutually and with the type strain of Cr. laurentii CCY 17 3-2. The composition of the medium cells were inoculated from was found to have little impact on the spectra quality. The same result was determined for the composition of the actual growth medium cells were cultivated on. Crucial for the quality of mass spectrum is the method of cells preparation. Best results were acquired when cultivating cells on YPD agar, washing the cells with ethanol and using mix of sinapinic and ferulic acid as a matrix. Potato agar was found not suitable for cultivating yeasts of the Cryptococcus genus due to significant production of extracellular polysaccharides which complicate the protein isolation process. All strains were compared to Cr. laurentii type strain CCY 17-3-2 and MSP dendrograms were created based on the spectra similarity. In the MSP dendrograms all strains were successfully divided into relevant species on all tested media. Finally sequences of D1/D2 domain of LSU gene were compared and phylogenetic tree was created. This tree was then compared to the MSP dendrograms.
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Biotyping of Cryptococcus laurentii group using mass spectrometry
Jäger, Jakub ; Breierová, Emília (referee) ; Stratilová, Eva (advisor)
Cryptococcus laurentii has been classically considered a saprophytic species, although several cases of human and animal infection have been already reported. This species is reported to be heterogenous. The taxonomy of yeast Cryptococcus laurentii was always highly ambiguous. The application of molecular biology and bioinformatic methods led to dividing of searched strains to two distinct phylogenetic groups, some varieties were recognized as species and the locution „Cryptococcus laurentii group“ was introduced. The taxonomy of this group is likely not definitive and with advancing knowledge will change. Our aim was the identification of individual species within this group based on matrix-assisted laser desorption/ionization – time of flight mass spectrometry (MALDI – TOF MS), which has recently been described as a rapid, reliable, cost-effective and powerful tool for analyzing of microorganisms, even on variety level. Generally, the yeasts of genus Cryptococcus form highly resistant polysaccharide capsules and produce large amount of extracellular polysaccharides, therefore belong to so called „difficult“ cases for biotyping. The experimental protocol has been optimized for MS analysis of this genus on the selected strains of Cr. neoformans, Cr. laurentii and Cr. magnus from the Culture Collection of Yeasts (CCY).Thirty-three strains, originally classified as Cryptococcus laurentii has been identified by chosen method. These strains were distributed into six different groups according their spectra similarities. It was selected at least one strain of each group, which was classified based on the sequence analysis of the D1/D2 domains of the LSU rRNA gene. This strain (with known sequence) became representative for its group. Type strain of Cryptococcus laurentii (CCY 17-3-2) belongs to the group I. Its MS spectrum of ribosomal proteins differ from mass spectra of all other biotyped species, even with strains identified as Cryptococcus laurentii was the similarity of the spectra low, which could be caused by identification of two different varieties. The group II is represented by Cryptococcus laurentii CCY 17-3-17. Except this strain, thirteen more strains belong to the group II. The group III represents Cryptococcus flavescens CCY 17-3-29. This group included 12 additional strains with almost identical mass spectra. Group IV included only one strain (CCY 17-3-13), which was identified as Cryptococcus carnescens based on gene sequence analysis. Similarly, one representative (CCY 17-3-5) has the group V. Strain CCY 17-3-5 was identified as Cryptococcus flavus. The last group VI of three members represents strain 17-3-35 identified as Bulleromyces albus. While Cr. laurentii and Cr. flavescens belong to phylogenetic group I and Cr. carnescens to the phylogenetic group II, four strains giving two types of different MS spectra and identified as Cr. flavus (1 strain) and Bulleromyces albus (3 strains) were excluded from „Cr. laurentii group.“
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Study of yeasts transglycosylases
Čurillová, Natália ; Ing.Hana Schusterová, Ph.D. (referee) ; Stratilová, Eva (advisor)
This study is interested in properties of fungal transglycosylases, specifically Phr1, Phr2 and Crh2. These enzymes are involved in the remodelling of yeast cell walls due to their cleavage of structural donor polysaccharides and transfer of their fragments to the other acceptor (poly)saccharide molecules. The mammalian cells do not contain cell walls, nor cell wall transglycosylases, that´s why these enzymes are possible targets for antifungal agents. In this diploma thesis the effect of 67 commercially available inhibitors on Phr1 and Phr2 enzymes was studied by rapid screening. In the case of the Phr1 enzyme, two inhibitors showed a potential effect which was subsequently tested by size exclusion chromatography column incorporated into HPLC device. None of the inhibitors were found to have an inhibitory effect on Phr1 or Phr2 enzymes in contrast to DMSO in which all inhibitors were dissolved. The mode of action of Phr enzymes was also studied by thin layer chromatography and high performance liquid chromatography. The first method allowed to monitor the formation of products only in the later stages of the reaction, but more sensitive size exclusion chromatography showed the product formation at the beginning of the reaction. Phr1 cleaved the donor substrate near the non-reducing end and forms small fragments that are transfered to labeled acceptors during the whole reaction. Phr2 utilized random action pattern, thus creating products with higher molecular weight from the beginning of reaction. The effect of the polymerization degree of acceptor on it´s affinity with the Crh2 was also studied. The Michaelis-Menten constants showed no effect of acceptor lenght on the affinity between enzyme and substrate.
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Selected laboratory methods in chemistry teaching: video tutorials
Cosentino, Nikola ; Teplý, Pavel (advisor) ; Stratilová Urválková, Eva (referee)
The bachelor's thesis focuses on the teaching of laboratory methods at primary and secondary schools and its support with educational videos. A comparison of framework education programs and school education programs revealed a too general concept and little emphasis on laboratory teaching and the development of laboratory skills in primary and secondary education. A questionnaire survey among chemistry teachers helped us to define the basic laboratory methods taught. Information from the questionnaire survey was used in the creation of videos, specifically: work with kahan, filtration and crystallization. The created videos were subjected to feedback using a second questionnaire survey, on the basis of which the final editing of the videos took place.
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