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Specific functions of ARP2/3 complex subunits
Fišerová, Kamila ; Fischer, Lukáš (advisor) ; Oulehlová, Denisa (referee)
Actin is one of the most abundant proteins in living organisms. Regulation of the actin cytoskeleton is provided by many mechanisms, one of the regulators of actin dynamics in plants and animals is highly conserved - Arp2/3 complex. In organisms it consists of two large subunits (Arp2 and Arp3) and five small subunits (ArpC1 - ArpC5). Arp2/3 complex controls actin filament branching at an angle of 70o . This thesis describes the functions of individual subunits with a special emphasis on those which are specific for individual subunits. This summarize exceeds the boundaries of the plant kingdom, and it also discusses animals and yeast, in which the complex is actively studied, and it is a lot of information available about the mechanisms of its regulation. The paper summarizes the interactions between the subunits and their interactions with regulators of Arp2/3 complex and other proteins. Some of the subunits are in some organisms encoded by, more than one gene in such cases, these isoforms may have different functions as well. Arp2/3 complex is for animals necessary for living, but in plants mutations in the subunits of the complex have moderate symptoms. In plants the Arp2/3 complex is used primarily in fast and oriented growth, mutations of subunits showing typical distorted trichomes. Key...
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The role of ARP2/3 complex in plant cells
Schiebertová, Petra ; Schwarzerová, Kateřina (advisor) ; Martinec, Jan (referee)
2 Abstract ARP2/3 protein complex is formed from seven proteins (ARP2, ARP3 and ARC1- ARPC5) with a relatively conserved structure. ARP2/3 complex branches and nucleates new actin filaments. This thesis focuses on the study of the role and importance of the individual subunits of the complex ARP2/3 in plants. One of the principal aims of this work is to determine whether complex ARP2/3 may at least partially maintain its role when one or more of the subunits are not available. Furthermore if the individual subunits play another, plant-specific role and if the subunits are functionally equivalent in the complex. The main way how to achieve this objective is the analysis of multiple mutants of Arabidopsis thaliana in subunits of ARP2/3 complex. After comparing several phenotypes of mutant lines it is obvious that all the subunits are functionally equivalent. A loss of ARPC5 subunit usually manifests the strongest phenotypic expression. On the contrary, loss ARPC3 and ARPC2b subunits have weak phenotypic manifestations. Because some phenotypes, such as phenotype distorted trichomes was detected only in some mutant lines, whereas the phenotype of faster roots gravitropic response or vacuolar system fragmentation that was detected in all analyzed mutants suggests, that different subunits play varying roles...
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The role of ARPC2 in plant cells
Šlajcherová, Kateřina ; Schwarzerová, Kateřina (advisor) ; Klíma, Petr (referee)
ARPC2 protein localization in a plant cell Kateřina Šlajcherová 1 Abstract Actin cytoskeleton is an ubiquitous structure which plays numerous irreplacable roles. Actin nucleation is, beside formins, performed by ARP2/3 complex (actin-related protein), comprising of seven subunits (ARP2, 3, C1-C5) and activated by protein SCAR/WAVE complex. ARP2/3 complex is attached to the membrane and branches existing microfilaments, apart from nucleating them de novo. ARP2/3 mutants in most organisms show severe defects. However, plant mutants exhibit only mild phenotype, for example, Arabidopsis thaliana ARPC2 mutant (dis2-1) has deformed trichomes and leaf epidermal cells, but its viability is not impaired. The aim of the thesis is to map ARPC2 localization within the cell and broaden our understanding of ARP2/3 complex role in plant cell morphogenesis. Tobacco ARPC2 (NtArpC2) subunit was visualized in Arabidopsis plants, using the GFP fusion protein as well as imunofluorescence and anti-ARPC2 antibody. Experiments were undertaken to collocalize the subunit with actin and microtubular cytoskeleton, with mitochondrions, endosomes and other membrane organelles. The specimens were observed in confocal and TIRF microscope. The GFP-NtARPC2 protein shows as motile dots; their movement, but not their existence, is dependent...
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Functional analysis of plant Arp2/3 complex subunits
Kukla, Jakub ; Schwarzerová, Kateřina (advisor) ; Honys, David (referee)
1. Abstract ARP2/3 complex is well studied in case of animals, it plays key roles in motility of cells and intracellular organels. It's malfunctions result in severe growth disorders and even lethality of affected cells. On the contrary, plant cells do not exhibit such dramatic phenotype of ARP2/3 complex mutations like it is by animals. It is possible that just the different life strategies of plants and animals contribute to differences in a way how animal and plant cells use their cytoskeleton, where ARP2/3 complex is it's part as well. It is highly conserved 7 protein complex from yeast to human. His main functions are creation of new "de novo" actin filaments, actin branched filaments network. Some of the parasite organisms are capable of missusing its nucleator activity to actively move inside of host cell. Because of the plant cells are sourounded by the cell wall, which give them support in creating various shapes and also hinders active movement of the whole cell body, it is likely that ARP 2/3 complex could be possibly involved in novel plant specific functions as well. If we think about the different life strategy of plants and animals we can not ignore all the things these two kingdoms have in common regarding to cytoskeleton processes. That is the need both for vesicular transport and...
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