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Vegetable adaptogens - Schizandra chinensis
Pospíchalová, Lucie ; Půčková, Helena (referee) ; Kotlík, Josef (advisor)
This thesis deals with plant adaptogens (bioactive substances) in the plant Schisandra chinensis. The theoretical part is focused on characterization of the Schisandra genus, characterization of the Schisandra chinensis as a plant, its properties, occurrence and growing possibilities in the regional climate zone of the South Moravian Region as well as the use of this plant. Furthermore, adaptogens are described from a chemical point of view and their possible methods of isolation from individual parts of plants. The experimental part deals with extraction of fruits and leaves from plant Schisandra chinensis. Further, in the leaves extract was determined chlorophyll a, chlorophyll b and carotenoids by spectrophotometry, where the quantity of individual substances was confirmed for months April – May.
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Production of selected metabolites by yeasts and algae cultivated under stress conditions
Mariničová, Veronika ; Kočí, Radka (referee) ; Márová, Ivana (advisor)
The presented work was focused on the comparison between the production of selected metabolites by carotenogenic yeasts and microalgae cultivated under conditions of external stress. The main metabolites of interest were carotenoids, further lipophilic substances and lipids. Biotechnological overproduction of these metabolites could serve as a source of potentially beneficial substances not only for the pharmaceutical, cosmetic and food industries, but also for the production of third generation biofuels. Recently, there has been a growing interest in biofuels primarily from microalgae, which have a high potential in biofuel production and seem to be a promising source. The theoretical part deals with the description of individual genera of carotenogenic yeasts, microalgae, cyanobacteria, chemical composition of produced metabolites and brief biosynthesis. In addition, individual methods for analyzing the production of the metabolites of interest were described. The experimental part is focused on the comparison of production of carotenoids, coenzyme Q, ergosterols (phytosterols) and lipids by yeasts, microalgae and cyanobacteria. As a source of external stress, temperature, salt and light stress were chosen. The strains of Rhodotorula glutinis, Rhodotorula mucilaginosa, Sporidiobolus pararoseus and Cystofilobasidium macerans were studied from the yeast strains. Microalgae and cyanobacteria were Scenedesmus obliqus, Scenedesmus dimorphus, Chlorella sorokiniana, Chlorella saccharophila, Botryococcus brauni, Synechococcus nidulans and Arthrospira maxima. The yeast and algal strains were optimized for growth, carotenoid and lipid production. Applied salt stress showed a significant liquidation effect on algal and cyanobacterial strains. The thesis also monitored the biological stress, so-called co-cultivation of microalgae and yeasts. Further experiments will be the subject of future work.
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Production of carotenoi by yeasts of the genus Cystofilobasidium
Vavrysová, Alena ; Kočí, Radka (referee) ; Márová, Ivana (advisor)
Carotenoids are important industrial pigments present practically in all living organisms. The aim of presented work is the study of regulation of carotenoid production in yeasts of the genus Cystofilobasidium in presence of exogenous stress factors. Growth curve of C. capitatum exhibited typical two-stage course with prolonged stationary phase similar to other carotenogenic yeasts. Maximal production of biomass and beta-carotene occurred in 103rd hour. Applied stress factors (2-5% NACl, 2-5 mM H2O2, 0,01-1 mM Se(IV), 0,1-5 mM Cr(III)) exhibited no significant influence on biomass production, which reached on average 8-9 g/l. Positive effect was observed in presence of 5mM Cr where 10 g/L of biomass was produced. Beta-carotene formation was positively influenced by many applied stress factors, the highest yield (695 g/g) was reached in presence of 0,1 mM Se(IV). No simultaneous regulation of ergosterol and carotenes was observed in Cystofilobasidium cells. Production properties of yeast strain C. capitatum CCY 10-1-1 wee compared with those of other carotenogenic yeasts of the genes Rhodotorula and Sporobolomyces. C. capitatum produced similar biomass yield as Rhodotorula sp. in presence of salt. Production of beta-carotene by C. capitatum was slightly higher than in Rhodotorula glutinis, but lower than in Sporobolomyces strains which exhibited substantially lower biomass production. Karyotype of C. capitatum is relatively different when compared with karyotype of other carotenogenic yeasts. Based on summary of our results in seems that yeasts C. capitatum exhibit similar physiological as well as production properties as some Rhodotorula strains. Thus, yeasts of the genus Cystofilobasidium could be potentially used to industrial production of carotenoid pigments as well as yeast biomass rich in carotenoids and some biogenic elements.
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Use of autotrophic algae to production of biomass and some metabolites
Chrástová, Nikola ; Kostovová, Iveta (referee) ; Márová, Ivana (advisor)
Chlorophyll and carotenoids are natural pigments and antioxidants. These pigments are suitable for use in the pharmaceutical, cosmetics or food industries. Lipids are another major metabolite of algae and are a potential feedstock for biofuel production. This bachelor thesis deals with the cultivation of selected genera of autotrophic algae, subsequent isolation of these selected metabolites and their application. The theoretical part focuses on the description of the algae, the metabolites produced, the cultivation and the chosen methods. The experimental part deals with the optimization of the cultivation of algae of the genera Chlorella, Chlamydomonas and Desmodesmus, depending on the chosen medium and intensity of illumination, determination and quantification of algal biomass. Further, extraction of lipidic and carotenoid substances and determination by HPLC and GC was performed. In the overall comparison, the best producer of biomass is the algal genus Desmodesmus and the highest production of pigments and lipid substances was reached in algae of the genus Chlamydomonas.
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Simultaneous co-cultivation of selected strains of carotenogenic yeasts and autotrophic bacteria
Blažková, Jana ; Němcová, Andrea (referee) ; Szotkowski, Martin (advisor)
The submitted diploma thesis was focused on the study of co-cultivation of selected microorganisms, which were carotenogenic yeasts and cyanobacteria. The production of selected metabolites was compared in these co-cultivations. The main metabolites monitored were carotenoids, sterols, coenzyme Q10, chlorophylls and lipids. Furthermore, this work focused on the study and possibilities of optimizing the production of lipids and lipid substances in selected strains of carotenogenic yeasts and cyanobacterial species. The theoretical part is focused on the description of yeasts, especially carotenogenic yeasts, cyanobacteria and the chemical composition of the produced metabolites. Microorganisms such as yeast and cyanobacteria contain carotenoids, which are natural pigments and are classified as antioxidants. As antioxidants, they have significant biological effects, such as effects on human health. Coenzyme Q has a positive effect on the functioning of organs in the human body. Chlorophyll is widely used in the food industry as a green dye. Lipids produced by microorganisms contain a large amount of unsaturated fatty acids, which is currently used in cosmetics or pharmacy. The theoretical part also described the individual analytical methods by which the production of the monitored metabolites could be determined. The experimental part is focused on the production of carotenoids, sterols, coenzyme Q10 and chlorophyll, which were determined by HPLC, lipids and fatty acid profile were determined by GC. The determined metabolites are monitored in different types of co-culture partners (carotenogenic yeast and cyanobacteria) in media with different additions of macroelements (P, N and Mg). This was followed by a co-cultivation experiment using waste oils (frying and coffee oil) and a study of the effect of waste oils added to co-cultivations. Co-cultivation experiments confirmed the ability of carotenogenic yeasts and cyanobacteria to grow together. The best results were obtained with Rhodosporidium toruloides and Anabena torulosa, Rhodosporidium toruloides and Arthrospira maxima.
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Potential use of waste lipid substrates and glycerol to production of carotenoids by yeasts
Kostovová, Iveta ; Obruča, Stanislav (referee) ; Márová, Ivana (advisor)
The aim of this study was use of lipid waste substrates and waste glycerol as carbon sources for red yeasts. Six yeast strains, namely Rhodotorula glutinis, Rhodotorula rubra, Rhodotorula aurantiaca, Cystofilobasidium capitatum, Sporobolomyces roseus and Sporobolomyces shibatanus were used for cultivation. All studied yeast strains were able to utilize glycerol and rapeseed oil as a carbon source. Cultivation in oil medium was in most of strains accompanied by decreased production of carotenoids. Increased production of ergosterol, lycopene and biomass was observed in some strains only. Most of yeast strains cultivated in glycerol medium produced increased amount of biomass as well as carotenoids. The best producer of bi-omass and pigments was yeast strain Sporobolomyces roseus CCY 19-6-4 grown in medium containing glucose and glycerol in a 1:1 ratio.
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Use of selected fluorescence techniques to characterization of microbial cells
Vaněk, Martin ; Pekař, Miloslav (referee) ; Márová, Ivana (advisor)
Carotenoids are one of the most abundant natural pigment. Furthermore, they have great potential for wide industrial utilization. Nowadays, prefered (and cheaper) synthetic method counters progressively improved biotechnological production. Far more cheaper production should be reached via implementing methods of on-line optimization, such as flow cytometry. In this thesis the dependence of yeasts autotofluorescence intensity on carotenoids concentration in dry mass was studied. The dependence was established by means of linear regression. Moreover, the dependence between light scatter and the amount of dry mass was established by means of model utilizing forward scatter, side scatter and number of cells in unit volume. Yeasts' cells was also studied under the lenses of laser scanning confocal microscope. The goal was to localize carotenoids inside cells. Experiments undertaken suggest that they are localized inside the lipidic granules, but more experiments are required for a proof.
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Characterization of yeast and algae metabolites by instrumental techniques
Kurowska, Klára ; Márová, Ivana (referee) ; Němcová, Andrea (advisor)
The presented diploma thesis deals with the analysis and production of selected microbial metabolites of the yeast Rhodotorula kratochvilovae in comparison to various species of microalgae. The theoretical part summarizes the knowledge about the conditions for optimal growth and production of secondary metabolites. Analytical methods, by which metabolites were quantified and evaluated, were also described. In the experimental part of this thesis, the amount of accumulated biomass, exoglycolipids, intracellular lipids, phycobiliproteins and carotenoids according to various nutrient sources in the culture medium was studied. Specifically, the yields of these metabolites were investigated in the utilization of various sources of nitrogen (yeast extract, urea, ammonium sulfate, ammonium chloride and potassium nitrate), carbon (glucose, mannose, xylose, glycerol and lactose) and at variable C / N ratios (20; 40; 70; 100 and 120: 1) ideally selected sources of observed nutrients in partial experiments. The last part of the experiment was focused on comparison of the analysis of metabolites of autotrophic algae (chlorophylls, phycobiliproteins and lipids).
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Cultivation of microalgae and carotenogenic yeasts under stress conditions
Sniegoňová, Pavlína ; Skoumalová, Petra (referee) ; Szotkowski, Martin (advisor)
In biotechnological industry we can register greater use of microorganisms like microalgae and carotenogenic yeast for production of selected substances or for valorisation of waste materials. Among metabolites produced by these microorganisms are carotenoids, which are natural pigments with antioxidant and other biological effects. Other significant produced substances are lipids, which represent large range of substances in living organisms. They form cellular membranes and serve as a reservoir of energy. These substances can be used in food, cosmetic and pharmaceutical industry and also in production of biofuels. Theoretical part is focused on description of selected genera of microorganisms, their cultivation and produced metabolites. Stress factors to which they were exposed are also mentioned, as are the analytical methods used for detection of produced metabolites. Next part is dedicated to the comparison of production properties of selected microorganisms depending on used stress factor. Increased production of lipids in yeast is observed in C. macerans and S. metroseus with higher concentrations of FeCl3. While using whey as a source of ccarbon, yeasts show decreased production of carotenoids. Highest production of lipids in algae and cyanobacteria was observed in S. acutus and D. quadricaudea. Production of carotenoids depended on applien stress factor and highest productions was observed in C. sorokiniana, C. reinhardtii, D quadricaudea and Coccomyxa sp.
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Study of red yeast metabolism on molecular level
Roubalová, Monika ; Němcová, Andrea (referee) ; Márová, Ivana (advisor)
This master thesis is focused on the molecular characterization of the eight red yeasts species. For molecular characterisation, the most variable rDNA regions ITS1, 5,8S ITS2 and the region encoding the large ribosomal subunit (26S) were amplified. This long region of the yeasts DNA was sequenced and compared by NCBI database for identification. The red yeasts identification was confirmed by data from DGGE method. Another aim of this thesis was to select the best yeasts producer of carotenoids and triacylglycerols. Rhodosporidium toruloides was found as the best producer and, thus, this strain was subjected to random mutagenesis by UV irradiation. The results of the production of metabolites by R. toruloides were compared with mutant strains, which were also adapted to the glycerol and waste whey substrates. The mutant strain G33 was found as the best producer of total carotenoids with a yield of 7.14 mg.g-1 of biomass. The highest production of ergosterol was demonstrated by the mutant strain Y34, the ergosterol yield was 47.72 mg.g-1 of biomass. The wild type of R. toruloides was able to produce the highest amount of both carotene (2.42 mg.g-1 of biomass) and TAG (76.32 mg.g-1 of biomass) on glucose medium.
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