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Metabolite production by some strains of industrial yeasts in various phases of cell growth
Jankeje, Kristína ; Kubešová,, Jitka (referee) ; Kočí, Radka (advisor)
Presented bachelor thesis is focused on industrial application of chosen yeast strains. Principal interest of work is to study production of primary and secondary metabolites during individual growth phases. Optimal growth conditions as well as influence of exogenous stress factors (mainly oxidative and/or salt stress) on cell growth and yeast metabolism are discussed. In experimental part growth curve of industrial strain Phaffia rhodozyma was determined. Biomass increase (maximum in 90th hour 5,441 g/l), astaxanthin production (secondary metabolite) and/or ergosterol biosynthesis (primary metabolite) were observed. The best ration of astaxanthin to total carotenoids was 50 %. Next studied metabolite was ergosterol, its total amount in dry biomass was 0.11 %. In conclusion astaxanthin amounts produced in optimal growth conditions were compared with yields obtained under stress cultivations. Results of stress experiments illustrate positive influence of stress factors on cell growth as well as on astaxanthin biosynthesis. Low concentration of salt (2% NaCl) added in inoculum with 5 mM hydrogen peroxide in production medium would be the best combination in industrial applications.
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Use of selected fluorescence techniques to study of yeasts and yeast metabolites
Mikheichyk, Nadzeya ; Skoumalová, Petra (referee) ; Márová, Ivana (advisor)
The scope of thesis was the optimization of methods for the study of yeast and their metabolites using flow cytometry and fluorescence microscopy. Red yeasts are characterized by overproduction of carotenoids and lipids, which are used in food, pharmaceutical and feed industries. Currently, intensive research is being carried on to find appropriate microbiological alternatives for synthesis of these substances. Present thesis is focused on selected yeast genera: Rhodotorula, Sporobolomyces, Cystofilobasidium and strain Phaffia rhodozyma. Yeasts were cultivated on different nutrient media, in which glucose was used as a nutritional source, and also on glycerol and whey as waste material. In two strains - Cystofilobasidium macerans and Rhodotorula mucilaginosa growth characteristics were determined on a synthetic glucose production medium. All studied strains were able to use waste substrates as a source of nutrients. Some of the strains displayed increased production of carotenoids, and, additionally, in some cases also relatively high production of lipids. In classical cultivation in lipid and glucose medium supplemented with vitamins the best production characteristics displayed Rhodotorula glutinisstrain. In glycerol medium the highest amount of carotenoids and lipidic substances produced Sporobolomyces shibatanus strain. Strain Sporobolomyces roseus showed the best production characteristics on whey as the main source of carbon. The results show use of whey and glycerol seems like appropriate option for potential carbon source to cultivate carotenogenic yeasts and production of carotenoids and selected lipidic substances as products with higher added value. Further optimization of nutrient medium on the given substrates is needed for higher production of selected metabolites. Fluorescence microscopy and flow cytometry have proved to be suitable options for determination of the observed metabolites in the cells, their amount and viability.
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Characterization of individual phases of cultivation of red yeasts
Valentová, Lucie ; Němcová, Andrea (referee) ; Márová, Ivana (advisor)
This bachelor thesis deals with the problematic of metabolic activity and morphology of several biotechnologically significant red yeasts - Rhodotorula glutinis, Sporobolomyces shibatanus and Phaffia rhodozyma during the cultivation time. These yeasts were cultivated on glucose medium, during the cultivation samples were taken for the analysis of produced metabolites. The amount of -carotene, astaxanthin, coenzyme Q and ergosterol were monitored. The amount of biosynthesised lipids and fatty acid profile was also investigated. HPLC/PDA and GC/FID were used for the analysis of these metabolites. Yeasts were cultivated 56 hours (they reached early stationary phase). The highest production of carotenoid pigments showed Phaffia rhodozyma (1856.58 g/g), 42 % of this amount represents -carotene. The highest lipids biosynthesis efficiency was reached by Rhodotorula glutinis. To study the inner structure of yeast cells the Fluorescence Life-time Imaging was used, the Autofluorescence of carotenoids and fluorescence of lipid bodies induced by lipophilic dye Nile red was observed. This method is very useful for imaging cell inner structure (membranes, some kinds of organelles). The changes that the cell undergoes during its evolution could be quantified too. The relationship between the level of carotenoid concentration, membrane rigidity and metabolic shift was found.
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Characterization of individual phases of cultivation of red yeasts
Valentová, Lucie ; Němcová, Andrea (referee) ; Márová, Ivana (advisor)
This bachelor thesis deals with the problematic of metabolic activity and morphology of several biotechnologically significant red yeasts - Rhodotorula glutinis, Sporobolomyces shibatanus and Phaffia rhodozyma during the cultivation time. These yeasts were cultivated on glucose medium, during the cultivation samples were taken for the analysis of produced metabolites. The amount of -carotene, astaxanthin, coenzyme Q and ergosterol were monitored. The amount of biosynthesised lipids and fatty acid profile was also investigated. HPLC/PDA and GC/FID were used for the analysis of these metabolites. Yeasts were cultivated 56 hours (they reached early stationary phase). The highest production of carotenoid pigments showed Phaffia rhodozyma (1856.58 g/g), 42 % of this amount represents -carotene. The highest lipids biosynthesis efficiency was reached by Rhodotorula glutinis. To study the inner structure of yeast cells the Fluorescence Life-time Imaging was used, the Autofluorescence of carotenoids and fluorescence of lipid bodies induced by lipophilic dye Nile red was observed. This method is very useful for imaging cell inner structure (membranes, some kinds of organelles). The changes that the cell undergoes during its evolution could be quantified too. The relationship between the level of carotenoid concentration, membrane rigidity and metabolic shift was found.
|
|
|
Use of selected fluorescence techniques to study of yeasts and yeast metabolites
Mikheichyk, Nadzeya ; Skoumalová, Petra (referee) ; Márová, Ivana (advisor)
The scope of thesis was the optimization of methods for the study of yeast and their metabolites using flow cytometry and fluorescence microscopy. Red yeasts are characterized by overproduction of carotenoids and lipids, which are used in food, pharmaceutical and feed industries. Currently, intensive research is being carried on to find appropriate microbiological alternatives for synthesis of these substances. Present thesis is focused on selected yeast genera: Rhodotorula, Sporobolomyces, Cystofilobasidium and strain Phaffia rhodozyma. Yeasts were cultivated on different nutrient media, in which glucose was used as a nutritional source, and also on glycerol and whey as waste material. In two strains - Cystofilobasidium macerans and Rhodotorula mucilaginosa growth characteristics were determined on a synthetic glucose production medium. All studied strains were able to use waste substrates as a source of nutrients. Some of the strains displayed increased production of carotenoids, and, additionally, in some cases also relatively high production of lipids. In classical cultivation in lipid and glucose medium supplemented with vitamins the best production characteristics displayed Rhodotorula glutinisstrain. In glycerol medium the highest amount of carotenoids and lipidic substances produced Sporobolomyces shibatanus strain. Strain Sporobolomyces roseus showed the best production characteristics on whey as the main source of carbon. The results show use of whey and glycerol seems like appropriate option for potential carbon source to cultivate carotenogenic yeasts and production of carotenoids and selected lipidic substances as products with higher added value. Further optimization of nutrient medium on the given substrates is needed for higher production of selected metabolites. Fluorescence microscopy and flow cytometry have proved to be suitable options for determination of the observed metabolites in the cells, their amount and viability.
|
|
|
Metabolite production by some strains of industrial yeasts in various phases of cell growth
Jankeje, Kristína ; Kubešová,, Jitka (referee) ; Kočí, Radka (advisor)
Presented bachelor thesis is focused on industrial application of chosen yeast strains. Principal interest of work is to study production of primary and secondary metabolites during individual growth phases. Optimal growth conditions as well as influence of exogenous stress factors (mainly oxidative and/or salt stress) on cell growth and yeast metabolism are discussed. In experimental part growth curve of industrial strain Phaffia rhodozyma was determined. Biomass increase (maximum in 90th hour 5,441 g/l), astaxanthin production (secondary metabolite) and/or ergosterol biosynthesis (primary metabolite) were observed. The best ration of astaxanthin to total carotenoids was 50 %. Next studied metabolite was ergosterol, its total amount in dry biomass was 0.11 %. In conclusion astaxanthin amounts produced in optimal growth conditions were compared with yields obtained under stress cultivations. Results of stress experiments illustrate positive influence of stress factors on cell growth as well as on astaxanthin biosynthesis. Low concentration of salt (2% NaCl) added in inoculum with 5 mM hydrogen peroxide in production medium would be the best combination in industrial applications.
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