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Microtubule-associated proteins in plants
Benáková, Martina ; Krtková, Jana (advisor) ; Vinopal, Stanislav (referee)
1. Abstract and key words MTs are one of the basic cellular protein structure. Their features and function are influenced and modified by group of other proteins, i.e. microtubule-associated proteins (MAPs). In the last decades, an extensive research on MAPs and their wide range of functions has been carried out. Therefore we are aware of the involvement of some of the MAPs in MT dynamics, other have been shown to have rather structural function. They bundle MTs with various cell structures, such as the other MTs, proteins, organelles, actin cytoskeleton or plasma membrane. Many described MAPs are homologous in the whole eukaryotic domain, for example MAP65 or EB1 (END BINDING 1) family, therefore it is interesting to follow if and how the functions of plant MAPs differ from their animal counterparts. On the other hand, there are many specific MAPs with unique functions in plants, e.g. ATK5 or SPR1 (SPIRAL 1). This Bachelor thesis is a survey on current knowledge of plant MAPs and it makes an effort to present their characteristic and functions in plant cell and organism. Key words: cytoskeleton, microtubules, microtubule-associated proteins, plant cell, growth and development
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Autophagy in plant abiotic stress
Kosťová, Natálie ; Hála, Michal (advisor) ; Martinec, Jan (referee)
Autophagy is a cellular mechanism when cell gets rid of its damaged or unwanted components. These are wrapped into a double membrane and creates so-called autophagosome, which is transported to the vacuole, where its contents are degraded or recycled. Autophagy runs essentially through whole life of the plant, but if it is necessary, for example in response to stressful conditions, it is significantly intensified. It is relatively complexly regulated mechanism, which, especially in plants, still has not been completely described. Autophagy plays an important role under the influence of stress conditions. Especially, the effects of abiotic stress play an important role in plant life. Plants are immobile organisms so they must therefore develop mechanisms to enable them to survive in adverse conditions. In response to different types of stress, we can observe different roles in the involvement of autophagy, whether it is disposal of poorly folded proteins, remobilization of nutrients or antioxidant mechanism. Autophagy is also especially important for the process of stress memory and regulation.
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Phenolic acids in plants
Klížová, Lucie ; Karlíčková, Jana (advisor) ; Janoušek, Jiří (referee)
CHARLES UNIVERSITY PHARMACEUTICAL FACULTY IN HRADEC KRÁLOVÉ DEPARTMENT OF PHARMACEUTICAL BOTANY Title of the Diploma thesis: FENOLIC ACIDS IN PLANTS Candidate: Lucie Klížová Supervisor: PharmDr. Jana Karlíčková, Ph.D. Diploma thesis 2020/2021, pp. 153 Phenolic acids belongs between secondary metabolites, which are part of fruits, vegetables, cereals and other plants of different families. For example, it can be plants of family Lamiaceae, Asteraceae and Ericaceae, which contain significant amounts of these substances. In plants phenolic acids play an important role and they have many human health-promoting effects including antioxidant, anti-inflammatory, antiviral, antibacterial, antifungal, anticancer activity and other. Plants containing phenolic acids are preferably also used as antidiabetics, expectorants, insecticides, hypolipidemics, cardioprotective and neurological compounds, etc. The content of these compounds in plants may be different according to monitored cultivar, the place of growth, the time of harvest and many other aspects. Presence, identification and subsequent quantification of individual phenolic acids are usually done through the HPLC and MS methods and total content of these compounds is determined through the Folin-Ciocalteu method. The diploma thesis is a literature...
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Biological activity of plants secondary metabolites XXX. Basic search of selected taxons on anticholinesterase activity.
Karaščáková, Diana ; Opletal, Lubomír (advisor) ; Hošťálková, Anna (referee)
CHARLES UNIVERSITY Faculty of Pharmacy in Hradec Králové Department of Pharmaceutical Botany Candidate: Diana Karaščáková Supervisor: prof. RNDr. Lubomír Opletal, CSc. Title of diploma thesis: Biological activity of plants secondary metabolites XXX.; Basic search of selected taxons on anticholinesterase activity As part of the study of the biological activity of secondary metabolites, 7 taxa of higher plants were selected. The study deals with basic research of summary and alkaloid extracts prepared from morphological parts of plants Annona muricata (leaves), Leonotis leonurus (perch), Turnera diffusa (perch), Hamelia patens (perch), Uncaria guianensis (bark), Allamanda cathartica (perch) and Morinda citrifolia (leaves). To elucidate the presence of the major types of secondary metabolites, extracts were prepared and subjected to detection reactions by TLC using ten detection reagents. After detection by Dragendorff's reagent of ethyl acetate extracts, alkaloids were significantly present only in Annona muricata. Alkaloids were not detected in the bark of Uncaria guianensis. Using the Ellman method, the extracts were tested for potential inhibitory activity against human brain cholinesterases, using both recombinant enzymes. No significant active substances were present in any of the measured...
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Characterization of subunit A of the Eukaryotic translation initiation factor 3 in Arabidopsis thaliana
Raabe, Karel ; Michailidis, Christos (advisor) ; Retzer, Katarzyna (referee)
In plants, translation regulation plays an important role during progamic phase, fertilization and seed development. The process of translation is mostly regulated in its initiation phase, where Eukaryotic translation initiation factor 3 (eIF3) is the largest and most complex initiation factor, consisting of 12 different subunits. In plants, single eIF3 subunit mutants caused various growth and development defects, depending on the particular subunit that was mutated. However, not all the plant eIF3 subunits were characterized to this date. The objective of this work was to functionally characterize the eIF3 subunit A using Arabidopsis thaliana as the main model plant. We described in this work that plant eIF3A proteins share high levels of homology and domain organization with eIF3A subunits from non-plant eukaryotic species but contain regions specific only to plants. Next we described that Arabidopsis thaliana AteIF3A gene is transcribed in highly proliferating tissues, its protein product localizes to cytoplasm and around pollen vegetative cell nucleus and observed an increased frequency of defective pollen grains and defects in seed formation in plants with T-DNA insertion localized to the AteIF3A gene. We also produced stable transgenic Nicotiana tabacum lines expressing heterologous AteIF3A...
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Biological activity of plants secondary metabolites XXX. Basic search of selected taxons on anticholinesterase activity.
Karaščáková, Diana ; Opletal, Lubomír (advisor) ; Hošťálková, Anna (referee)
CHARLES UNIVERSITY Faculty of Pharmacy in Hradec Králové Department of Pharmaceutical Botany Candidate: Diana Karaščáková Supervisor: prof. RNDr. Lubomír Opletal, CSc. Title of diploma thesis: Biological activity of plants secondary metabolites XXX.; Basic search of selected taxons on anticholinesterase activity As part of the study of the biological activity of secondary metabolites, 7 taxa of higher plants were selected. The study deals with basic research of summary and alkaloid extracts prepared from morphological parts of plants Annona muricata (leaves), Leonotis leonurus (perch), Turnera diffusa (perch), Hamelia patens (perch), Uncaria guianensis (bark), Allamanda cathartica (perch) and Morinda citrifolia (leaves). To elucidate the presence of the major types of secondary metabolites, extracts were prepared and subjected to detection reactions by TLC using ten detection reagents. After detection by Dragendorff's reagent of ethyl acetate extracts, alkaloids were significantly present only in Annona muricata. Alkaloids were not detected in the bark of Uncaria guianensis. Using the Ellman method, the extracts were tested for potential inhibitory activity against human brain cholinesterases, using both recombinant enzymes. No significant active substances were present in any of the measured...
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Stomata opening and closure regulation in respect to osmotic stress
Hofírková, Miroslava ; Hála, Michal (advisor) ; Lhotáková, Zuzana (referee)
Stomata are structures located in higher plants' epidermis and they regulate mainly CO2 intake and transpiration. The stomata are important for plants' protection against excessive water loss during osmotic stress. This thesis is a literary research summarizing stomatal movements regulation during osmotic stress. The main part of the thesis is focused on stomatal closure with the help of ABA under water deficiency conditions. There are the ABA synthesis, transport and its impact on stomata described in individual chapters. The ABA early signalling pathway and an ionic channel regulation are described in detail on the basis of the published data. The second part of the thesis is about second messengers produced by ABA and their impact on stomatal movement regulation. The special attention is paid to hydrogen peroxide and nitric oxide and their contribution to stomatal closure. The last part is about passive (hydraulic) stomatal closure. Keywords: plants, stomata, osmotic stress, ABA, stomatal movements
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Cuticle, its formation and importance in resistance of plants to abiotic stress
Litkeiová, Veronika ; Hála, Michal (advisor) ; Tylová, Edita (referee)
Plants are daily exposed to stress, biotic or abiotic. Both of these types can be divided into several subgroups. This work is focused on plant cuticle, its formation and function in respect to abiotic stress resistance. The main factors, mentioned in this work, are drought, heat, UV radiation, excessive salinity or ozone exposure. The individual chapters focus on the composition, biosynthesis and changes in the build-up construction caused by certain types of stressors. A significant part is also devoted to cutin and cuticular waxes, which play an important role in plant protection and whose structure is also affected by abiotic stress. Phytohormones, especially abscisis acid, which had its application here, are also not omitted. In the final phase of the thesis, cuticular mutants are mentioned in connection with abiotic stress types illustrating the role and the importance of the cuticle layer. Key words: plants, cuticle, osmotic stress, abscisic acid, cutin, waxes
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