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Role of reactive cysteines in the activation of the human TRPA1 ion channel
Synytsya, Viktor ; Vlachová, Viktorie (advisor) ; Zemková, Hana (referee)
TRPA1 is a thermosensitive ion channel from the family of TRP (transient receptor potential) receptors. In primary sensory neurons, TRPA1 is an important transducer of painful stimuli, where it contributes to detection of noxious, irritant and inflammatory compounds of endogenous and exogenous origin. The major activation mode of TRPA1 is covalent modification of N-terminal cysteines or lysines by electrophilic compounds. The potency of the electrophilic agonists is increased by voltage dependency of the TRPA1 channel, which contributes substantially during membrane depolarization. To date, the role of several cysteine residues in the N- terminus has been demonstrated. However, the functional role of six cysteines in the transmembrane domain is still unknown. The first part of the thesis focuses on the functional role of the transmembrane cysteines in the activation of human TRPA1 channel. Our results indicate that these sites do not mediate reactive-electrophile-induced activation but four of the six cysteines substantially contribute to voltage-dependent gating of the channel and two participate in calcium-dependent modulation of TRPA1. In the second part of this thesis we aim to explore the proximity of two specific charged residues, located in the linker between the fourth and the fifth...
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Morphine alkaloid metabolism in bacteria
Zahradník, Jiří ; Kyslík, Pavel (advisor) ; Lichá, Irena (referee)
Morphine alkaloids and their derivatives are pharmaceutically important substances. Huge production and consumption of these compounds predetermines them to be significant pollutants in the environment. Some of them have been detected in surface waters. The aim of this study was to characterize effects of morphine alkaloids on the physiology of three model organisms: Agrobacterium sp. R89-1, Escherichia coli XL-1 (Blue), and Raoultella sp. kDF8, and elucidation of the mechanisms leading to toxicity. The biotransformation potential and utilization ability were characterized for model organisms. It was demonstrated that the microorganism Agrobacterium sp. R89-1 is capable of rapid biotransformation of codeine to its 14-OH derivatives. The manifestation of morphine compounds toxic effects for the strain R89-1 is the highest. In contrast, microorganism Raoultella sp. KDF8 is able to utilize codeine as a carbon and energy source. The accumulation of 14-OH-derivatives was not observed. Escherichia coli XL-1 (Blue) is not able to biotransform or utilize codeine. Α, β-unsaturated ketones (morphinone, codeinone, 14-OH-morphinone and 14-OH-codeinone) were found as a most toxic intermediates of codeine metabolism. Bacterial cell growth (strains R89-1 and KDF8) in the presence of codeine is characteristic with...
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Enantioselective synthesis of spiro compounds
Urban, Michal ; Veselý, Jan (advisor) ; Kotora, Martin (referee)
This thesis deals with the preparation of enantiomerically and diastereomerically pure spirocompounds using asymmetric organocatalysis. The first part is focused on the enantioselective synthesis of spirocompounds by organocatalytic reaction of α,β-unsaturated aldehydes with sulfur heterocyclic compounds catalysed with secondary amines. It is a domino Michael/Michael/aldol reaction using iminium and enamine activation. The second part is focused on the subsequent transformation of the prepared spirocompounds.
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