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Accumulation of phenolic compounds in Spirogyra in stress conditions
Ráček, Jan ; Pichrtová, Martina (advisor) ; Procházková, Lenka (referee)
Phenolic substances represent one of the major groups of secondary metabolites of higher plants that play a role in a number of biotic and abiotic interactions. Among algal groups, these substances are produced, for example, by conjugating algae (Zygnematophyceae), which are currently considered to be the closest living relatives of higher plants. The common function of phenolic substances is protection against the harmful effects of ultraviolet radiation, or even an excessive amount of photosynthetically active radiation, which was supported by the induction of their synthesis after exposure to UV radiation in several ecophysiological studies. However, the range of applied stress factors and their effect on changes in phenol levels is limited. In this diploma thesis, the genus Spirogyra, for which the chemical structure of a number of specific phenolic substances is known, was exposed to selected stress factors and their influence on cell morphology, maximum quantum yield Fv/Fm and quantity of phenolic substances was monitored. A significant increase was observed after application of UV-B radiation, higher level of PAR, low temperature and osmotic stress, while at high temperature this effect was not evident. Increased production upon UV-B exposure further underlines the importance of phenolic...
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Functions of RAB GTPases and SNARE proteins in post-Golgi trafficking pathways in response to abiotic stress in plants
Moulík, Michal ; Hála, Michal (advisor) ; Mašková, Petra (referee)
Plants as sessile organisms are strongly affected by abiotic and biotic stress factors. Thus, they have developed an array of morfological, biochemical and physiological adaptations to reduce the negative effects of these factors. The membrane trafficking, among others, plays very important role in adaptation to abiotic stress. In my bachelor thesis I have focused on two important protein families involved in this trafficking, namely on RAB GTPases and SNARE proteins. In the first part, the phenomenon of stress is characterized and the strategies how plants cope with the effect of stressors are described, especially the production of reactive oxygen species (ROS) and autophagy. Following chapter deals with an introduction to the membrane trafficking in plants. In the rest of the thesis, I characterize RAB GTPases and SNARE proteins and provide contemporary insight in the mechanism of their function. The aim of the key parts of these chapters is to summarize current knowledge of RAB GTPases' and SNARE proteins' functions in post-Golgi trafficking pathways during response to abiotic stressors or secondary oxidative stress. Key words: plants, abiotic stress, membrane trafficking, secretion, endocytosis, vacuole, RAB GTPases, SNARE proteins
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Vesicular trafficking into the plant vacuole
Semerádová, Hana ; Kulich, Ivan (advisor) ; Vosolsobě, Stanislav (referee)
Vacuole is very important plant cell organelle which can occupy 90% of cell volume. It provides wide range of functions. Considering enormous size of the vacuole, vesicle trafficking into the plant vacuole is major vesicle movement inside the cell. Transport pathway into the vacuole is very dynamic field of plant cell biology. This sorting machinery shares similarities within all eukaryotes, but plants also have their own specificities. Soluble cargo is targeted through secretory pathways by vacuolar sorting receptors (VSRs). These proteins due to its transmembrane localization can interact with sorted cargo and take it to the right organelle within the cell. Membrane fusion is facilitated with Rab-GTPase and SNARE protein complexes. A special kind of vesicle traffic is autophagy, the self consuming process that protects the cell from various type of stress or enables apoptosis.
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