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Palladium in the environment
Hajdová, Jana ; Řezáčová, Veronika (referee) ; Komendová, Renata (advisor)
This work is focused on palladium in the environment. Its use is especially in the automobile industry as catalytic converters of motor vehicles, but also is applied in dental, jewelry making and electrical appliances. The release of this metal from automobile catalysts is getting into all environmental compartments (soil, road dust, water, plants), where goes to its accumulation. It can be a part of the food chain and cause health risks to humans. The work also focuses on methods of sampling, preconcentration and methods, which can determined palladium in environmental samples (spectrophotometric methods, AAS, ICP-AES and ICP-MS).
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Rhodium in the environment
Ondreášová, Klára ; Nevrlá, Jana (referee) ; Komendová, Renata (advisor)
This bachelor thesis focuses on the characteristic of rhodium, its use in the automotive industry, the occurrence in environmental compartments (air, soil, vegetation, water), accumulation and transformations. In this thesis there are also described methods of sampling for determination, the types of sample preparation, separation and preconcentration techniques necessary prior to instrumental analysis. The work also focuses on the most commonly used analytical methods of rhodium determination, which are spectrophotometric methods, AAS, ICP-AES and ICP-MS.
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Study on protective effect of 3-hydroxybutyrate and its derivatives
Černá, Klára ; Smilek, Jiří (referee) ; Obruča, Stanislav (advisor)
The aim of this thesis is the study of chemical chaperones, as a preservative enzymes before denaturing processes. In the experimental part of the study we investigated the protective effects of five selected potential protective compounds – derivatives of 3-hydroxybutyrate – two model enzymes: lipase and lysozyme. Protective effects of potential chemical chaperones were investigated by dynamic light scattering (DLS), which was determined by the size distribution of the aggregates lipase produced depending on the temperature at the heat-induced denaturation. Further we have been used differential scanning calorimetry (DSC), which was determined by the temperature of the denaturation of lysozyme in the presence or absence of potentially protective substances. The last parameter was to determine the effect of potentially protective agents at different concentrations on the catalytic activity of lipase and determining the residual lipase activity after application of denaturing two factors – the high temperature and freezing. Of all tested structural analogues of 3-hydroxybutyrate was the highest protective effect observed (stabilization of enzyme molecules) with the succinate, which has two carboxyl groups. Conversely, 1,3-butanediol showed virtually no protective activity, indicating that the presence of carboxyl groups on the protective effect of essential. The low protective efficacy butyrate further indicates that it is essential that an effective protectant in addition to the carboxyl group contained as a further functional group – either carboxyl or hydroxyl. More significant protective effect was observed in 3-hydroxybutyrate than in 2-hydroxybutyrate. Interestingly, the effective protectant while at higher concentrations strongly inhibit the enzyme activity of the model enzyme, which is probably related to the solvation and conformations of the protein in the presence of protectant and the availability of the active site for the substrate.
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Spectrophotometry of natural drugs - secondary metabolites of plants
Hořavová, Lenka ; Masařík, Michal (referee) ; Provazník, Ivo (advisor)
Plants are an important source of secondary metabolites, such as substances that have a beneficial biological effect on the health of humans and they are irreplaceable in the modern medicine. They may operate in prevention and in the treatment of civilization diseases. In terms of content substances, the phenolic come to fore, especially polyphenols, which have been related to a number of overview studies due to their wide distribution and high concentration in plants. They also represent an important part of substances with redox effects present in the human diet and have an important role for the plant itself. Currently, many laboratories are dedicated to pharmaceutical and biological testing of plants. Individual polyphenols in plant matrices are determined primarily by chromatography, electrophoresis methods, mass spectrometry and nuclear magnetic resonance. Valuable information on the content of polyphenols in plant extract can be obtained also by using spectrophotometric methods. The subject of this thesis is to provide information, characterization and comparison of conventional and modern techniques for the determination of natural substances – phenolic compounds using spectral techniques.
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Spectrophotometry of ROS species with focus on hydrogen peroxide
Zhorný, Lukáš ; Hořavová, Lenka (referee) ; Provazník, Ivo (advisor)
The main theme of this work is spectrophotometry. The first chapter describes the theoretical problems of the topic, relevant units and formulas for calculating the absorbance of the solutions of given concentrations. Further disclosed herein is a spectrophotometer, its individual parts, and the principle on which the unit is based. The last chapter of the theoretical introduction to this work is focused on the production of ROS in living organisms and especially in plants, and then there are some spectrophotometric methods for determining the concentration of ROS. The practical part describes the method using TiCl4 and method using KI. Both methods were used to determine the hydrogen peroxide concentration and subsequent measurement of absorbance of solutions of standard hydrogen peroxide added interfering substances. Then, the statistical analysis of the measured data and the assessment of the impact of these interferents to measure absorbance. The first of these methods proved to be suitable for a given measurement.
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Changes in the contents of anthocyanins and photosynthetic pigments in barley leaves under the effect od climate change factors
Nikodymová, Michaela ; Albrechtová, Jana (advisor) ; Mašková, Petra (referee)
Ongoing climate change and its manifestations have a significant impact on agricultural crops, which are exposed to a wide range of abiotic (drought, high or low temperature, elevated UV radiation) and biotic (pathogens, pests) stress factors that can dangerously affect their growth and yield. One of the very important phenomena of climate change is the increasing concentration of CO2 and other greenhouse gases in the atmosphere. Manifestations of climate change, such as high temperature and drought, interact together with increased CO2 concentration, and these interactions can have serious effects on vegetation. This diploma thesis examines the effect of climate change factors and stress factors on the content of pigments with the importance of plant protection against stress, namely photosynthetic pigments and anthocyanins in barley leaves. The aim of the thesis is to find out whether and what are the differences in the response to these factors in two varieties of barley, differ in their resistance to photooxidative stress. The plants were grown in pots in growth chambers under controlled conditions and in flower beds in adjustable greenhouses with open roofs in the experimental station of plant ecophysiology Domanínek of the Global Change Research Institute of the Czech Academy of Sciences in...
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Spectrophotometry of ROS species with focus on hydrogen peroxide
Zhorný, Lukáš ; Hořavová, Lenka (referee) ; Provazník, Ivo (advisor)
The main theme of this work is spectrophotometry. The first chapter describes the theoretical problems of the topic, relevant units and formulas for calculating the absorbance of the solutions of given concentrations. Further disclosed herein is a spectrophotometer, its individual parts, and the principle on which the unit is based. The last chapter of the theoretical introduction to this work is focused on the production of ROS in living organisms and especially in plants, and then there are some spectrophotometric methods for determining the concentration of ROS. The practical part describes the method using TiCl4 and method using KI. Both methods were used to determine the hydrogen peroxide concentration and subsequent measurement of absorbance of solutions of standard hydrogen peroxide added interfering substances. Then, the statistical analysis of the measured data and the assessment of the impact of these interferents to measure absorbance. The first of these methods proved to be suitable for a given measurement.
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Study on protective effect of 3-hydroxybutyrate and its derivatives
Černá, Klára ; Smilek, Jiří (referee) ; Obruča, Stanislav (advisor)
The aim of this thesis is the study of chemical chaperones, as a preservative enzymes before denaturing processes. In the experimental part of the study we investigated the protective effects of five selected potential protective compounds – derivatives of 3-hydroxybutyrate – two model enzymes: lipase and lysozyme. Protective effects of potential chemical chaperones were investigated by dynamic light scattering (DLS), which was determined by the size distribution of the aggregates lipase produced depending on the temperature at the heat-induced denaturation. Further we have been used differential scanning calorimetry (DSC), which was determined by the temperature of the denaturation of lysozyme in the presence or absence of potentially protective substances. The last parameter was to determine the effect of potentially protective agents at different concentrations on the catalytic activity of lipase and determining the residual lipase activity after application of denaturing two factors – the high temperature and freezing. Of all tested structural analogues of 3-hydroxybutyrate was the highest protective effect observed (stabilization of enzyme molecules) with the succinate, which has two carboxyl groups. Conversely, 1,3-butanediol showed virtually no protective activity, indicating that the presence of carboxyl groups on the protective effect of essential. The low protective efficacy butyrate further indicates that it is essential that an effective protectant in addition to the carboxyl group contained as a further functional group – either carboxyl or hydroxyl. More significant protective effect was observed in 3-hydroxybutyrate than in 2-hydroxybutyrate. Interestingly, the effective protectant while at higher concentrations strongly inhibit the enzyme activity of the model enzyme, which is probably related to the solvation and conformations of the protein in the presence of protectant and the availability of the active site for the substrate.
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Spectrophotometry of natural drugs - secondary metabolites of plants
Hořavová, Lenka ; Masařík, Michal (referee) ; Provazník, Ivo (advisor)
Plants are an important source of secondary metabolites, such as substances that have a beneficial biological effect on the health of humans and they are irreplaceable in the modern medicine. They may operate in prevention and in the treatment of civilization diseases. In terms of content substances, the phenolic come to fore, especially polyphenols, which have been related to a number of overview studies due to their wide distribution and high concentration in plants. They also represent an important part of substances with redox effects present in the human diet and have an important role for the plant itself. Currently, many laboratories are dedicated to pharmaceutical and biological testing of plants. Individual polyphenols in plant matrices are determined primarily by chromatography, electrophoresis methods, mass spectrometry and nuclear magnetic resonance. Valuable information on the content of polyphenols in plant extract can be obtained also by using spectrophotometric methods. The subject of this thesis is to provide information, characterization and comparison of conventional and modern techniques for the determination of natural substances – phenolic compounds using spectral techniques.
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Rhodium in the environment
Ondreášová, Klára ; Nevrlá, Jana (referee) ; Komendová, Renata (advisor)
This bachelor thesis focuses on the characteristic of rhodium, its use in the automotive industry, the occurrence in environmental compartments (air, soil, vegetation, water), accumulation and transformations. In this thesis there are also described methods of sampling for determination, the types of sample preparation, separation and preconcentration techniques necessary prior to instrumental analysis. The work also focuses on the most commonly used analytical methods of rhodium determination, which are spectrophotometric methods, AAS, ICP-AES and ICP-MS.
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