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Direct Synthesis of High-Molecular Polymers of Lactic Acid
Mikulík, David ; Kupka, Vojtěch (referee) ; Petrůj, Jaroslav (advisor)
This master thesis deals with the direct synthesis of polymers from lactic acid. The theoretical part focuses on both natural and synthetic ways of production the lactic acid monomer, their advantages and properties. Furthermore, the theoretical part focuses on the synthesis of poly(lactic acid) (PLA) from lactide, and direct polycondensation from lactic acid discussing about influences of catalysts, co-catalysts as well as chain extenders. The experimental part focuses on the synthesis of PLA polymers and co-polymers wherein investigates suitable catalysts, reaction medium for azeotropic dehydration and co-catalyst influence on products. Thermal and analytical analysis of PLA polymers are mentioned at the end of the experimental part.
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Control the molecular weight of hyaluronic acid (HA) by adjusting the specific growth rate of culture Streptococcus equi subsp. zooepidemicus
Osičková, Jana ; Pepeliaev,, Stanislav (referee) ; Franke,, Lukáš (advisor)
This master thesis focuses on the effect of cultivation parameters on hyaluronic acid synthesis during its biotechnological production. The cultivation parameters were temperature of the cultivation, aeration, agitation, carbon source and addition of phosphatidylcholine. Changes in molecular weight and yield of hyaluronic acid, growth of biomass and medium viscosity were observed. From the obtained data we learned, that the specific growth rate greatly impacts final characteristics of hyaluronic acid. Under suboptimal temperatures a high molecular weight polymer was synthesised along with comparable yields from the control cultivation. High temperatures (40 °C) caused a dip in molecular weight. The next cultivation parameters were aeration and agitation. The highest molecular weights were obtained in cultivations with high agitation rates and intensive aeration, specifically 1 vvm/800 rpm and 2 vvm/800 rpm. Agitation had a bigger influence on molecular weight than aeration. When the carbon source was changed from sucrose to glucose, the lowest molecular weight and yield were obtained. Addition of phosphatidylcholine with concentration 160 mg/l had a positive effect on the cultivation, where the molecular weight grew and biomass growth was higher.
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The effect of the molecular weight of poly(I:C) on the development and behavior of offspring in the maternal immune activation model
Cmarková, Nathalie ; Brožka, Hana (advisor) ; Petrásek, Tomáš (referee)
Maternal inflammation during pregnancy is associated with an increased risk of the development of psychiatric disorders in offspring, especially schizophrenia and autism. Prenatal treatment with poly(I:C), a viral mimetic, is a widely used model of maternal immune activation leading to developmental and behavioral alterations in offspring. However, results of studies are inconsistent possibly due to the differences in the molecular weight of used poly(I:C). In this thesis, the effect of different molecular weights of poly(I:C) was assessed. Pregnant Wistar rat females were treated by either high molecular weight (HMW) or low molecular weight (LMW) poly(I:C) on gestational day 14 to assess developmental and behavioral deficits relevant to schizophrenia and autism in offspring on postnatal day 12 and at three months. Prenatal exposition to the HMW poly(I:C) led to significantly reduced social behavior in the Homing test and a trend towards reduced USV vocalization in pups. The LMW pups showed significantly impaired negative geotaxis. In adulthood, the HMW and LMW offspring both exhibited significant social deficits and reduced anxiety. Anxiety was reduced mainly in the LMW group. This thesis revealed differences in behavioral outcomes between prenatal exposition to HMW and LMW poly(I:C). These...
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Characterization of extracellular and intracellular organic matter produced by phytoplankton in relation to water treatment
Zezulová, Tereza ; Pivokonský, Martin (advisor) ; Janda, Václav (referee)
This study investigated characteristics of algal organic matter (AOM) derived from four species (cyanobacteria Microcystis aeruginosa and Merismopedia tenuissima, diatom Fragilaria crotonensis and green alga Chlamydomonas geitleri) dominating phytoplanktonic populations in the reservoirs supplying drinking water treatment plants - the water reservoirs Švihov (the Želivka water treatment plant) and Josefův Důl (the Jizerské Mountains), Czech Republic. The four mentioned microorganisms were cultivated under laboratory conditions and the algal growth was quantified by a number of cells, chrorophyll-a and optical density. Production of AOM was evaluated by dissolved organic carbon concentration measurements, by specific UV absorbance, the amount of peptide/protein and non-peptide (carbohydrate) contents, water affinity and molecular weight (MW). AOM of all considered microorganisms are formed predominantly by hydrophilic substances with low values of specific UV absorbance (< 2 L/(m.mg)). Considerable portions of both types of AOM, i.e. extracellular and cellular organic matters are represented by substances with MW < 1 kDa or with MW > 100 kDa. However, the total amount and composition of AOM significantly depend on algal species and their growth. The obtained results imply that the knowledge of AOM...
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interaction of adhesive with structural wood
Janová, Petra ; Rovnaník, Pavel (referee) ; Vaněrek, Jan (advisor)
This labor is based on penetration of adhesives into a wood cell walls. It focuses mainly on adhesives that are currently used for construction purposes. It also contains a methodics of selecting adhesives and wood, which will be used for glued joints and summarizes the methods used for detect these adhesives in the wood cell wall. It experimentally verifies the appropriate selection of the dye-solvent combination used in the adhesive.
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Study of the adheisve affinity into the wood cell wall at the sub-microstructural level
Mitrenga, Ondřej ; Rovnaník, Pavel (referee) ; Vaněrek, Jan (advisor)
This thesis focuses on the problematic of adhesive affinity into wood cell wall at the sub-microstructural level. The main subject of this thesis is research work of scholarly articles focused on the penetration of resins and polymers into the cell wall of the wood. In contains a description of the principles on which the used methods are based, and a summary of the results achieved. In the experiment, several method were used to investigate the possible penetration of selected methods adhesives into the structure of the cell wall. These are fluorescence microscopy, confocal microscopy, scannin electron microscopy (SEM) and transmission electron microscopy (TEM).
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Study of adhesive penetration into the wood cell wall
Janová, Petra ; Krbila, Jaromír (referee) ; Vaněrek, Jan (advisor)
This labor is based on penetration of adhesive into a wood cell walls. It focuse on adhesives basicly used for construction purposes, especially on epoxy resins. The labor contains the use of methods for precise detection adhesive in wood and methodics for choice of adhesive and wood basically used for bonding. It describes the experimentally detected dependence of contact angle on viscosity epoxy resins.
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Characterization of extracellular and intracellular organic matter produced by phytoplankton in relation to water treatment
Zezulová, Tereza ; Pivokonský, Martin (advisor) ; Janda, Václav (referee)
This study investigated characteristics of algal organic matter (AOM) derived from four species (cyanobacteria Microcystis aeruginosa and Merismopedia tenuissima, diatom Fragilaria crotonensis and green alga Chlamydomonas geitleri) dominating phytoplanktonic populations in the reservoirs supplying drinking water treatment plants - the water reservoirs Švihov (the Želivka water treatment plant) and Josefův Důl (the Jizerské Mountains), Czech Republic. The four mentioned microorganisms were cultivated under laboratory conditions and the algal growth was quantified by a number of cells, chrorophyll-a and optical density. Production of AOM was evaluated by dissolved organic carbon concentration measurements, by specific UV absorbance, the amount of peptide/protein and non-peptide (carbohydrate) contents, water affinity and molecular weight (MW). AOM of all considered microorganisms are formed predominantly by hydrophilic substances with low values of specific UV absorbance (< 2 L/(m.mg)). Considerable portions of both types of AOM, i.e. extracellular and cellular organic matters are represented by substances with MW < 1 kDa or with MW > 100 kDa. However, the total amount and composition of AOM significantly depend on algal species and their growth. The obtained results imply that the knowledge of AOM...
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Influencing of molecular mass of hyaluronic acid by fermentation process
Wikarská, Monika ; Jílková, Jana (referee) ; Velebný, Vladimír (advisor)
The biological function of hyaluronic acid (HA) – the polysaccharide, which consists of repeating units of N-actylglucosamine and glucuronic acid – is extremely broad and often contradictory, depending on its molecular weight (MW). The bacterial production provides HA of high molecular weight and purity. The objective of this thesis is to control the molecular weight of produced HA by the addition of hyaluronidases during the process of fermentation, resulting in reduction of viscosity of the medium followed by increase of yield. Hyaluronic acid was prepared by batch fermentation of the microorganism Streptococcus equi subsp. zooepidemicus. During the process of fermentation, the enzyme hyaluronate 4-glycanohydrolase (BTH) at various concentrations and different times of cultivation was added to bioreactors. The HA yield, the molecular weight and the polydispersity by the SEC-MALLS were monitored, together with the residual glucose concentration and the dynamic viscosity of the production medium. The formation of low and medium molecular weight HA was achieved. The addition of 10 U (BTH) / g (HA) had no significant effect on the molecular weight and therefore the HA function, but the corresponding drop of viscosity was noteworthy for the simplification of the product purification. Potential increase in HA yield was not confirmed because of the very low concentration of residual glucose and the method of precipitating low and medium MW HA.
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