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Controlled production of lipids and lipidic substances by selected yeasts and microalgae
Szotkowski, Martin ; Kráčmar, Stanislav (referee) ; Huelva, Ines Garbayo Nores, University (referee) ; Márová, Ivana (advisor)
Karotenoidy jsou přírodní pigmenty vyskytující se v mikroorganismech jako jsou řasy, kvasinky a sinice. Představují nejrozšířenější skupinu antioxidantů s významným biologickým účinkem. V současnosti vzrůstá zájem o karotenoidy vzhledem k jejich příznivým vlivům na lidské zdraví. Chlorofyly jsou zelená fotosyntetická barviva, která nacházejí uplatnění v potravinářství jako intenzivní zelená barviva. Koenzym Q je znám svým pozitivním vlivem pro správnou funkci řady orgánů v lidském těle. Ergosterol je nedílnou součástí membrán kvasinek a hub. Je to provitamin D2, který je důležitou součástí imunitního systému. Mikrobiální lipidy, nebo také ‚‚Single cell oils‘‘ jsou charakteristické vysokým obsahem zdraví prospěšných nenasycených mastných kyselin, které lze využít ve farmacii či kosmetice. Mikrobiální lipidy jsou dále studovány jako alternativa pro výrobu biopaliv. Dizertační práce byla zaměřena na studium a možnosti optimalizace produkce lipidů a lipidických látek vybranými kmeny karotenogenních kvasinek, mikrořas a sinic. V rámci práce byly testované kvasinky rodu Rhodotorula, Rhodosporidium, Cystofilobasidium a Sporidiobolus podrobené kultivacím na sérií médií s různými C/N poměry v rozsahu 13 až 100, obsahujících upravené odpadní substráty z potravinářského průmyslu. Vybrané kmeny byly poté kultivovány v bioreaktorech v médiu obsahujícím kombinaci odpadních substrátů. Kultivace mikrořas rodu Desmodesmus, Scenedesmus, Chlorella, Coccomyxa, Chlamydomonas, Botryococcus se zabývaly optimalizací jednotlivých komponent média a aplikací různých stresů s cílem navýšení produkce studovaných metabolitů. V rámci experimentů s extrémofilní mikrořasou Coccomyxa byly provedeny pilotní velkoobjemové kultivace v otevřených nádržích. V závěrečné části byl provedeny pilotní screeningové a velkoobjemové bioreaktorové experimenty zaměřené na možnosti kokultivace karotenogenních kvasinek a mikrořas. Testované kmeny kvasinek byly s rozdílnou úspěšností schopny utilizovat média obsahující hydrolyzované odpadní substráty. Nejlepším kmenem byl Sporidiobolus pararoseus, který na médiích dosahoval nejvyšších produkcí biomasy i sledovaných metabolitů. Z testovaných odpadních substrátů byla nejlepší kombinace odpadního fritovacího oleje a hydrolyzátu kávové sedliny. Úspěšná optimalizace složení hlavních komponent minerálního média vedla k zvýšené produkci studovaných metabolitů. Největší vliv měl optimální poměr P/N a aplikace oxidačního stresu. Nejlepších výsledků dosáhly mikrořasy rodu Desmodesmus a Scenedesmus. Velkoobjemové kultivace Coccomyxy onubensis potvrdily rezistenci kultury proti kontaminaci vnějšími vlivy a schopnost růstu za vysoké teploty a intenzity světelného záření. Kokultivační experimenty potvrdily schopnost symbiotického růstu kvasinek a mikrořas. Nejlepších výsledků dosahovaly všechny testované kvasinky s mikrořasami rodu Demsodesmus a Scenedesmus a v menší míře i rodu Coccomyxa.
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Metabolic adaptation of carotenogenic yeasts to nutritional stress induced by selected wastes of the food industry
Plhalová, Žaneta ; Šimanský, Samuel (referee) ; Szotkowski, Martin (advisor)
This bachelor thesis deals with the production of carotenoids and lipids by selected strains of carotenogenic yeasts cultivated on waste substrates of the food industry. The production properties of the yeast strains Sporidiobolus pararoseus, Sporidiobolus metaroseus, Cystofilobasidium macerans, Rhodotorula mucilaginosa, Rhodotorula kratochvilovae and Rhodosporidium toruloides were studied. The cultures were cultivated by using waste products of food industry: waste frying oil, coffee oil which was obtained by extraction from coffee grounds and waste animal fat from rendering plants. The work consists of two main parts. The theoretical part describes the individual genera of yeasts, monitored metabolites, waste products and methods of analysis of monitored metabolites. The experimental part is focused on the processing of used waste substrates, cultivation of yeasts, acquisition and processing of biomass and analysis of metabolites. Rhodosporidium toruloides and Sporidiobolus pararoseus strains were the most suitable for the production of carotenoids on waste substrates. The highest production of lipid substances was measured in the strain Sporidiobolus pararoseus.
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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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Optimization of extraction of metabolites produced by selected strains of microalgae and carotenogenic yeast.
Obračaj, Jan ; Holub, Jiří (referee) ; Szotkowski, Martin (advisor)
This bachelor thesis is focused on the production of microbial biomass using selected strains of cyanobacteria and carotenogenic yeasts. Subsequent preparation of extracts and study of their stability under different temperature conditions with the addition of the antioxidant tocopherol. In the experiment, 2 series of extracts with hexane and ethanol were prepared. The theoretical part of the work describes the studied metabolites carotenoids, chlorophylls, ubiquinone, ergosterol and microbial lipids. Furthermore, the used strains of cyanobacteria and carotenogenic yeasts are described here. Finally, methods for extraction and analysis of metabolites are described. The experimental part describes the used cultivation techniques, preparation of microbial extracts and used analytical methods. The results part of the work then contains a summary of the results of long-term stability tests of extracts. The results of the work clearly confirm the temperature dependence of the stability of individual metabolites. This phenomenon was most evident in chlorophyll and carotenoid pigments. Hexane appears to be the best solvent in terms of the stability of the substances used. The results of this work provide important information in terms of the economics of storage of these valuable substances usable in the food, pharmaceutical or feed industries.
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Biotechnological treatment of poultry industry waste with yeast
Ustiuzhanin, Vladimir ; Sniegoňová, Pavlína (referee) ; Szotkowski, Martin (advisor)
This bachelor's thesis focuses on the cultivation of specific carotenogenic yeast strains using waste substrates from the poultry industry. Yeasts are highly valued for their capacity to degrade complex organic compounds and generate diverse metabolites, including fatty acids, lipids, and carotenogenic pigments. The yeast strains selected for this study were Rhodotorula kratochvilae (CCY 20-2-26), Rhodosporidium toruloides (CCY 62-2-1), Rhodotorula mucilaginosa (CCY 19-4-6), Sporidiobolus salmonicolor (CCY 19-6-4), Sporidiobolus metaroseus (CCY 19-6-20), Sporidiobolus pararoseus (CCY 19-9-6). The work is divided into two parts: theoretical and experimental. The theoretical part provides details on the yeast genera used, a description of the waste substrate, monitored metabolites, and methods applied for their analysis. The experimental part encompasses the cultivation procedures and conditions, biomass processing, metabolite analysis, and the obtained results. Main selected waste substrates were chicken fat and feather hydrolysate. Through a series of laboratory-scale experiments, the most appropriate strains for producing the monitored metabolites and biomass on waste substrates were identified: Sporidiobolus pararoseus a Rhodotorula mucilaginosa. The highest lipid content in the biomass was identified in the strain Sporidiobolus pararoseus.
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Optimization of the biotechnological processing of lipidic food wastes by carotenogenic yeasts on a laboratory and pilot scale.
Plhalová, Žaneta ; Mikulíková, Renata (referee) ; Szotkowski, Martin (advisor)
This thesis is aimed at monitoring the production characteristics of carotenogenic yeasts when cultured using waste substrates as sources of organic carbon and energy. The waste substrates tested included waste fryer oil, chicken rendering waste fat, coffee oil and coffee hydrolysate derived from coffee grounds and waste glycerol. The producers investigated were yeasts Cystophilobasidium infirmominiatum (CCY 17-18-4), Cystophilobasidium macerans (CCY 10-1-2), and Rhodotorula kratochvilovae (CCY 20-2-26), Rhodotorula mucilaginosa (CCY 19-4-6), Rhodotorula toruloides (CCY 62-2-4), Sporidiobolus pararoseus (CCY 19-9-6), Sporidiobolus metaroseus (CCY 19-6-20) and Sporidiobolus salmonicolor (CCY 19-6-4). Among the metabolites studied were carotenoids, ergosterol, ubiquinone, tocopherol, lipids, fatty acid composition and beta-glucans. Lipase activity was also monitored. The thesis has two main parts: theoretical and experimental. The theoretical part describes the different genera, the metabolites studied and their functions, and the waste substrates used. In the experimental part, the methods used for the preparation and treatment of waste substrates, media preparation, yeast cultivation, biomass acquisition and processing, sample preparation for individual analyses, and the metabolite analysis itself were described. From the screening cultures, it was found that the most suitable strains for cultivation using waste media were Sporidiobolus pararoseus, Rhodotorula mucilaginosa, Rhodotorula toruloides and Cystophilobasidium macerans. The strain Sporidiobolus pararoseus achieved the highest biomass production and significant enrichment of biomass with the metabolites studied. Based on screening cultures, several large-scale cultures were performed in a laboratory bioreactor, where the best increase was achieved by the strain Sporidiobolus pararoseus (37.5) g/l.
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Application of selected food industry wastes in the biotechnology of carotenogenic yeasts with a focus on optimizing yield coefficients.
Obračaj, Jan ; Němcová, Andrea (referee) ; Szotkowski, Martin (advisor)
This diploma thesis is focused on cultivation of selected carotenogenic yeasts on industrial waste substrates. These microorganisms are able to produce valuable metabolites with use in many industrial sectors, which primarily include pharmaceutical and food industries. Within this experiment, it was necessary to map the growth of these microorganisms on various alcohols and on other components of these waste substrates. Subsequently, the yield coefficients and amount of produced metabolites were compared, within the different strains and used source of nutrients. In theoretical part of the thesis are described used strains of yeasts, studied metabolites and their methods of extraction and analysis. The studied metabolites include carotenoid pigments, ubiquinone, ergosterol, microbial lipids and -glucans. The experimental part contains list of the equipment used, laboratory techniques, laboratory and analytical methods, chemicals, and list of the strains of microorganisms used. The result section then compares the amount of metabolites produced within the strain used and substrate used for cultivation, which took place both on a small scale and on a larger scale – fermentors. The results of this work can provide valuable information with application in industrial biotechnology of carotenogenic yeasts and reduce their economic demandingness and at the same time provide aid with ecological disposal of selected industrial wastes.
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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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Metabolic adaptation of carotenogenic yeasts to nutritional stress induced by selected wastes of the food industry
Plhalová, Žaneta ; Šimanský, Samuel (referee) ; Szotkowski, Martin (advisor)
This bachelor thesis deals with the production of carotenoids and lipids by selected strains of carotenogenic yeasts cultivated on waste substrates of the food industry. The production properties of the yeast strains Sporidiobolus pararoseus, Sporidiobolus metaroseus, Cystofilobasidium macerans, Rhodotorula mucilaginosa, Rhodotorula kratochvilovae and Rhodosporidium toruloides were studied. The cultures were cultivated by using waste products of food industry: waste frying oil, coffee oil which was obtained by extraction from coffee grounds and waste animal fat from rendering plants. The work consists of two main parts. The theoretical part describes the individual genera of yeasts, monitored metabolites, waste products and methods of analysis of monitored metabolites. The experimental part is focused on the processing of used waste substrates, cultivation of yeasts, acquisition and processing of biomass and analysis of metabolites. Rhodosporidium toruloides and Sporidiobolus pararoseus strains were the most suitable for the production of carotenoids on waste substrates. The highest production of lipid substances was measured in the strain Sporidiobolus pararoseus.
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Optimization of extraction of metabolites produced by selected strains of microalgae and carotenogenic yeast.
Obračaj, Jan ; Holub, Jiří (referee) ; Szotkowski, Martin (advisor)
This bachelor thesis is focused on the production of microbial biomass using selected strains of cyanobacteria and carotenogenic yeasts. Subsequent preparation of extracts and study of their stability under different temperature conditions with the addition of the antioxidant tocopherol. In the experiment, 2 series of extracts with hexane and ethanol were prepared. The theoretical part of the work describes the studied metabolites carotenoids, chlorophylls, ubiquinone, ergosterol and microbial lipids. Furthermore, the used strains of cyanobacteria and carotenogenic yeasts are described here. Finally, methods for extraction and analysis of metabolites are described. The experimental part describes the used cultivation techniques, preparation of microbial extracts and used analytical methods. The results part of the work then contains a summary of the results of long-term stability tests of extracts. The results of the work clearly confirm the temperature dependence of the stability of individual metabolites. This phenomenon was most evident in chlorophyll and carotenoid pigments. Hexane appears to be the best solvent in terms of the stability of the substances used. The results of this work provide important information in terms of the economics of storage of these valuable substances usable in the food, pharmaceutical or feed industries.
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