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Preparation and characterization of nanoparticles with encapsulated antimicrobial component
Dohnalová, Marie ; Strečanská, Paulína (referee) ; Márová, Ivana (advisor)
This bachelor thesis is focused on the preparation and characterization of particles with encapsulated natural substances with antioxidant and antimicrobial properties. Selected antioxidants were anthocyanins, eugenol and vitamin E, as one of the most powerful antioxidants. At the same time, antimicrobial agents were chosen, in this case eugenol. In the theoretical part, individual active substances, materials for the preparation of particles, methods of their preparation were characterized and the principle of determining the safety of used materials. In the experimental part, selected active substances were characterized and the preparation of particles was optimized. Two types of liposomes were prepared, for which the encapsulation efficiency, size and stability were determined. Also prepared aqueous extracts of blueberries and blackberries were prepared, for which total anthocyanin content has been determined. The extracted substances from the plant material were encapsulated into alginate particles. Furthermore, the gradual release of active substances from particles into model environments using a spectrophotometer was determined. During the gradual release of active substances from the particles, the antioxidant effect was also monitored, in which it was possible to observe a decrease with the passage of time. The antimicrobial effect of active substances and liposomes against model microorganisms Escherichia coli and Micrococcus luteus was also tested. Cytotoxicity tests on human keratinocytes were performed on selected active substances, extracts and prepared nanoparticles, where it was proven that the selected materials are non-cytotoxic. Finally, a proposal for a possible application form in the form of an alginate hydrogel was created.
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Influence of matrix type on the authentication of foodstuffs containing fruits
Kopková, Pavlína ; Strečanská, Paulína (referee) ; Fialová, Lenka (advisor)
Certain types of food, mainly the more expensive ones, are often adulterated to reduce their manufacturing price. However, this reduces their quality and can also have a negative impact on the health of the consumer. Children's fruit products are also targeted by fraudulent producers, where the declared fruit is most often replaced by a cheaper version. This work focuses on the detection of adulterated foods using various analytical methods, in particular PCR. The theoretical part focuses on the issue of food adulteration, the analytical methods used for detecting adulteration, and also on mango and banana which are determined in this work. The aim of this thesis was to determine what effect the type of matrix has on the determination of fruit components in food by PCR. Three types of matrix were used for this purpose - fruit puree, smoothie, and bars. An important task was to optimize the DNA isolation to achieve adequate purity and concentration of DNA. Then, the amplifiability of the obtained DNA was verified. The DNA isolates were then analyzed by multiplex PCR with primers specific for mango and banana. The results were verified by agarose gel electrophoresis. Subsequently, it was possible to determine that the fruit component in bars and fresh smoothies was the most easily analyzed by PCR and, on the contrary, the determination was problematic for puree. The instrumental part was focused on the determination of phenolic compounds in the products by HPLC. For this purpose, optimization of the extraction of phenolic compounds was necessary. This method was able to detect the presence of mangoes in all samples.
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Biotechnological production of selected biopolymers employing Haloferax mediterranei
Strečanská, Paulína ; Pernicová, Iva (referee) ; Obruča, Stanislav (advisor)
Aim of this bachelor thesis is to study of production of selected biopolymers, polyhydroxyalkanoates (PHA) and extracellular polysaccharides (EPS) by Haloferax mediterranei. The first part contains theoretical background including properties of biopolymers, advantages and purposes of commercial production, characteristics and positive aspects of cultivation of extreme halophile archaea Haloferax mediterranei. The experimental part is focused on study of effects of concentration of waste substrates, such as proteolytic whey hydrolysate and feather hydrolysate on PHA and EPS production. The effect of medium volume and its correlation with acceess of oxygen on biopolymer production were studied as well. PHA, in particul copolymer P(3HB-co/3HV) was analysed by gas chromatography with FID detection. The content of 3HV in PHA to 15,09 % was achieved using medium which contains 25 % proteolytic whey hydrolysate without glucose supplementation. Medium with 10 % of feather hydrolysate and 10 % of feather hydrolysate with 30 g/l glucose proved to be suitable in volume 50 ml in 250 ml Erlenmeyer flask. Haloferax mediterranei was able to produce biomass and accumulate PHA using protein substrate without need of saccharide supplementation.
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Preparation and characterization of nanoparticles with encapsulated antimicrobial component
Dohnalová, Marie ; Strečanská, Paulína (referee) ; Márová, Ivana (advisor)
This bachelor thesis is focused on the preparation and characterization of particles with encapsulated natural substances with antioxidant and antimicrobial properties. Selected antioxidants were anthocyanins, eugenol and vitamin E, as one of the most powerful antioxidants. At the same time, antimicrobial agents were chosen, in this case eugenol. In the theoretical part, individual active substances, materials for the preparation of particles, methods of their preparation were characterized and the principle of determining the safety of used materials. In the experimental part, selected active substances were characterized and the preparation of particles was optimized. Two types of liposomes were prepared, for which the encapsulation efficiency, size and stability were determined. Also prepared aqueous extracts of blueberries and blackberries were prepared, for which total anthocyanin content has been determined. The extracted substances from the plant material were encapsulated into alginate particles. Furthermore, the gradual release of active substances from particles into model environments using a spectrophotometer was determined. During the gradual release of active substances from the particles, the antioxidant effect was also monitored, in which it was possible to observe a decrease with the passage of time. The antimicrobial effect of active substances and liposomes against model microorganisms Escherichia coli and Micrococcus luteus was also tested. Cytotoxicity tests on human keratinocytes were performed on selected active substances, extracts and prepared nanoparticles, where it was proven that the selected materials are non-cytotoxic. Finally, a proposal for a possible application form in the form of an alginate hydrogel was created.
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The influence of polysaccharide contamination on molecular-biology analysis
Žylková, Kateřina ; Strečanská, Paulína (referee) ; Fialová, Lenka (advisor)
The presence of polysaccharides in DNA isolation and its subsequent analysis often leads to undesirable effects. Polysaccharides together with other metabolites (phenolics, proteins) can act as inhibitors of PCR. In this work, the effect of polysaccharide contamination on the analyzed DNA was investigated. In the experimental part, DNA samples were isolated from two exotic fruits (mango, banana), from which the concentration of polysaccharides was then determined. The analysis showed that by adding CaCl2, the polysaccharide content of the samples was significantly lower. After checking the amplification of the DNA samples with added CaCl2, it was found that CaCl2 itself inhibited PCR and therefore had to be removed from the samples. After purification, the amplification of the DNA was reverified and it was found that the DNA with CaCl2 after purification gave the best results. These results were further verified by agarose gel electrophoresis, which confirmed that a reduction in the polysaccharide content of the samples helped DNA amplification. It was also observed that it depends on the type of polysaccharides present in the source plant material. Banana DNA showed better amplification results than mango DNA. This is due to the different chemical composition of these fruits. Banana, unlike mango, does not contain polysaccharides that would significantly contaminate the isolated DNA.
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Influence of matrix type on the authentication of foodstuffs containing fruits
Kopková, Pavlína ; Strečanská, Paulína (referee) ; Fialová, Lenka (advisor)
Certain types of food, mainly the more expensive ones, are often adulterated to reduce their manufacturing price. However, this reduces their quality and can also have a negative impact on the health of the consumer. Children's fruit products are also targeted by fraudulent producers, where the declared fruit is most often replaced by a cheaper version. This work focuses on the detection of adulterated foods using various analytical methods, in particular PCR. The theoretical part focuses on the issue of food adulteration, the analytical methods used for detecting adulteration, and also on mango and banana which are determined in this work. The aim of this thesis was to determine what effect the type of matrix has on the determination of fruit components in food by PCR. Three types of matrix were used for this purpose - fruit puree, smoothie, and bars. An important task was to optimize the DNA isolation to achieve adequate purity and concentration of DNA. Then, the amplifiability of the obtained DNA was verified. The DNA isolates were then analyzed by multiplex PCR with primers specific for mango and banana. The results were verified by agarose gel electrophoresis. Subsequently, it was possible to determine that the fruit component in bars and fresh smoothies was the most easily analyzed by PCR and, on the contrary, the determination was problematic for puree. The instrumental part was focused on the determination of phenolic compounds in the products by HPLC. For this purpose, optimization of the extraction of phenolic compounds was necessary. This method was able to detect the presence of mangoes in all samples.
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Biotechnological production of selected biopolymers employing Haloferax mediterranei
Strečanská, Paulína ; Pernicová, Iva (referee) ; Obruča, Stanislav (advisor)
Aim of this bachelor thesis is to study of production of selected biopolymers, polyhydroxyalkanoates (PHA) and extracellular polysaccharides (EPS) by Haloferax mediterranei. The first part contains theoretical background including properties of biopolymers, advantages and purposes of commercial production, characteristics and positive aspects of cultivation of extreme halophile archaea Haloferax mediterranei. The experimental part is focused on study of effects of concentration of waste substrates, such as proteolytic whey hydrolysate and feather hydrolysate on PHA and EPS production. The effect of medium volume and its correlation with acceess of oxygen on biopolymer production were studied as well. PHA, in particul copolymer P(3HB-co/3HV) was analysed by gas chromatography with FID detection. The content of 3HV in PHA to 15,09 % was achieved using medium which contains 25 % proteolytic whey hydrolysate without glucose supplementation. Medium with 10 % of feather hydrolysate and 10 % of feather hydrolysate with 30 g/l glucose proved to be suitable in volume 50 ml in 250 ml Erlenmeyer flask. Haloferax mediterranei was able to produce biomass and accumulate PHA using protein substrate without need of saccharide supplementation.
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