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Physiological changes of cereals under temperature stress
Kantová, Anežka ; Vítámvás, Pavel (advisor) ; Hnilička, František (referee)
Cereals are among the oldest crops that have been grown and used by humans as important component of their diet. It is an important source of livelihood for the human population and have a wide range of uses, mainly in the food industry. Cereals generally serve as a source of energy in the diet, due to the high starch content. The most commonly grown types of cereals are especially wheat, barley, rye, rice, corn, but there may be other species such as oats and millet. However, even cereals do not avoid the problems associated with the action of abiotic stress factors. Their effect on all plants is manifested by a decrease in vitality, but in crops - such as cereals - mainly by a decrease in yield. Due to the reduction in yield, breeding of resistant cereal genotypes is now in the primary interest of breeders. This work summarizes the basic principles of the action of heat/cold stress on plants and explains the reactions of various types of cereals to these abiotic stress factors. Key words: proteome, physiology, cereals, temperature stres, yield, abiotic stres
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Morphological, physiological and proteomic changes of cereals under abiotic stress
Kantová, Anežka ; Vítámvás, Pavel (advisor) ; Hnilička, František (referee)
Cereals are among the oldest crops that have been grown and used by humans as important component of their diet. It is an important source of livelihood for the human population and have a wide range of uses, mainly in the food industry. Cereals generally serve as a source of energy in the diet, due to the high starch content. The most commonly grown types of cereals are especially wheat, barley, rye, rice, corn, but there may be other species such as oats and millet. However, even cereals do not avoid the problems associated with the action of abiotic stress factors. Their effect on all plants is manifested by a decrease in vitality, but in crops - such as cereals - mainly by a decrease in yield. Due to the reduction in yield, breeding of resistant cereal genotypes is now in the primary interest of breeders. This work summarizes the basic principles of the action of abiotic stress on plants and explains the reactions of various types of cereals to abiotic stress factors. Key words: proteome, physiology, cereals, abiotic stress, yield
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Algal and Cyanobacterial Adaptations to Low Temperature and Desiccation
Jimel, Matouš ; Elster, Josef (advisor) ; Košťál, Vladimír (referee)
Algae and cyanobacteria, due of their evolutionary antiquity, are widely distributed primary producers that can withstand extreme environmental stresses. Low temperature, freezing and melting, and desiccation and rewetting, are common stresses prevalent mainly in polar regions and in winter seasons of temperate areas. In terms of physiological effects, these types of stresses share similar effects or are closely related to one another. Low temperatures and desiccation exert a variety of stresses that need to be negated or lessened by adaptations. Specifically, adaptations to chill, freeze, and desiccation stresses will be discussed, as well as strategies that allow for stress avoidance or resistant morphological adaptations. In this thesis, characteristics, functions and mechanisms of these adaptations and stresses are reviewed, as well as potential biotechnological uses of said adaptations. Key words: algae, cyanobacteria, freezing, chill, desiccation, abiotic stress, cryoprotectants, osmoprotectants, akinetes, cryoinjury
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Use of RT-PCR in stress reaction studies
MANDÁK, Michal
Although the share of rapeseed (Brassica napus) in comparison with other oil crops on the world market continues to rise, its cultivation potential ,as with many other crops, is still limited due to its abiotic cold stress sensitivity. Therefore, the theoretical part of this thesis deals with the issue of plant stress and the description of the RT-qPCR method in the context of its suitability for quantification of changes that occur during cold stress. In the practical part of this thesis, an analysis of gene expression in selected dehydrin gene ERD10 was performed including description of sampling from plants, method of RNA isolation, reverse transcription into cDNA and own RT-qPCR. The research sample consisted of two rapeseed varieties Cadeli and Navajo subjected to cold stress at (2°C). The initial assumption was that there would be a noticeable difference in the expression level of the gene ERD10 between these varieties, depending on the ability of these plants to withstand cold stress. Although some samples were not measured, the interpretation of the data confirmed original assumption. During the first 6 days of cold stress, the Navajo variety had a significantly higher expression of this gene than the Cadeli variety. Based on the association between ERD10 expression and cold resistance, it should be possible to use ERD10 as one of the markers for the selection of cold resistant genotypes.
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Analysis of abiotic stress induced genes in rape
HOŠTIČKOVÁ, Irena
Breeding for abiotic stress tolerance is one of main topics in plant breeding. Oilseed rape breeding programs were for a long time focused on morphological and physiological parameters. In this thesis few experiments focused on identification of genes involved in abiotic stress reaction were performed using RT-qPCR (quantitative reverse transcription PCR). Simultaneously SPR (surface plasmon resonance) method were used as modern optical method facilitating very low native protein concentration even in presence of other substances. This method facilitates quantification of concrete proteins by binding them to specific antigen and in oilseed rape research it was not used by now. ERD10 protein was identified by SPR as protein involved in cold stress reaction (or acclimation). The results show ERD10 accumulation in standard conditions affects dynamics of its accumulation change during cold stress. In case we are searching for genotypes great in acclimation ability even during short and warm autumn SPR method should be suitable method for fast, easy and relatively cheap screening of large number of genotypes in breeding collections. Also genes LTI78, RCI2A, NRP1 and two genes for hypothetical proteins were analysed. Their relative expression during cold stress was markedly increased too. Very little is known about these genes and proteins nowadays therefor it will be interesting topic of our oncoming experiment. Relative expression of genes picked according to MALDI-TOF/TOF analysis results was also tested in microspore embryo regenerants stressed by simulated drought. Genes for lactoylglutathione lyase I, phospholipase D 1 and peroxiredoxin antioxidase were tested. In tolerant cultivar was markedly decreased gene expression of peroxiredoxin antioxidase in standard conditions and early stress. These gene will be subject for next research as potential marker for more tolerant genotypes selection.
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Characterization of the role of cytokinins and abscisic acid during abiotic stress response
Přerostová, Sylva ; Vaňková, Radomíra (advisor) ; Havel, Ladislav (referee) ; Doležal, Karel (referee)
Abiotic stresses significantly reduce crop yield, causing serious problems in agriculture. Understanding the mechanisms of plant stress responses could contribute to the improvement of their stress tolerance. Phytohormones play an important role in plant stress defence as well as in regulation of growth and development. This thesis summarizes the results published in four articles focused on the evaluation of the effects of phytohormones during abiotic stresses, namely salinity, drought, ZnO nanoparticle treatment and cold stress. The main emphasis is put on abscisic acid as the key regulator of water status and stress defence, and on cytokinins, which regulate plant growth and stabilize photosynthetic machinery. Cytokinins act antagonistically to abscisic acid. Our results showed that abscisic acid is a general abiotic stress response regulator. Stress- tolerant plants (halophyte Thellungiella salsuginea or winter line of einkorn wheat Triticum monococcum) had a higher basal level of this hormone, especially in shoot meristematic tissues (apices, crowns), than stress-sensitive plants. Stress-tolerant plants reacted faster and in a more flexible way to stress. Active cytokinins were negatively affected by stress, which was associated with growth suppression. The drought stress study showed that...
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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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Effect of climate variation on species germination
Duongová, Thuy Lien ; Münzbergová, Zuzana (advisor) ; Kladivová, Anna (referee)
Climatic changes have been influencing plants since their colonization of land. Plants always find a way to adapt to these new changes. Also germination of seeds and seedling recruitment have been adapting to climate change. During the last 150 years the current global warming is changing the germinalibity of seeds, the timing of germination, the rate of germination and the seedling recruitment. This bachelor thesis summarizes results of studies on how climate change effects the germination of plants and the seedling recruitment. This work also presents methods used for studying these questions. Studies often focus on germinalibity, the rate of germination and the timing of germination. Some of the species are profiting from these changes and we can observe faster germination and better germinalibity. Reduction of germination occurs in other species and so their fitness is also reduced. The number of studies observing inter-specific variability in germination is greater than studies on intra-specific variability. In my future work I would thus like to focus on the effect of climate change on intra-specific variability in germination. Powered by TCPDF (www.tcpdf.org)
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Abiotic Stress Adaptation in Plantago: mechanisms of tolerance
Dvořáková, Iveta ; Konrádová, Hana (advisor) ; Lhotáková, Zuzana (referee)
Plants are exposed to many adverse factors during their life cycles. Abiotic stresses are significantly limiting plant growth and development. Abiotic stress response mechanisms involve compatible solute synthesis (e.g. sugars, sugar alcohols and amino acids). The aim of this study was to characterise the responses of plants from Plantago genus to different abiotic stresses (drought, salinity, cold and stress combination). The complete plants grew under in vitro conditions. I compared morphological parameters, selected metabolic parameters (carbohydrates balance and proline accumulation) under optimal conditions and stress exposure. This study was focused on plants from genus Plantago, because they differ from each other in their tolerance to the salinity. Both, the glycophyte and the halophyte species are described within this genus. Plantains produce besides widespread soluble carbohydrates (sucrose, glucose, fructose) also sugar alcohol sorbitol, which has been reported as a significant component of the stress response. In addition, the reaction of plants to different carbon and energy sources was tested. More severe growth inhibition of the glycophyte Plantago lanceolata compared to the halophyte P. maritima was observed under salt treatment. Significant accumulation of sorbitol was observed...
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