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Interaction of protein subunits SEC10 and SEC15 of the exocyst tethering complex
Bartáková, Anna ; Ryšlavá, Helena (advisor) ; Čermáková, Michaela (referee)
The exocyst is an evolutionarily conserved tethering complex involved in the regulation of the secretory pathway in eukaryotic cells. As an effector of Small GTPases, the exocyst contributes to efficient targeting of secretory vesicles to the sites of intense exocytosis at the plasmatic membrane through interactions with specific membrane phospholipids. The exocyst complex consists of eight subunits: SEC3, SEC5, SEC6, SEC8, SEC10, SEC15, EXO70, and EXO84. Each subunit binds at least two other subunits, among them the interaction of SEC10 and SEC15 is crucial for the exocyst function. The question remains how this particular interaction is evolutionarily conserved across different plant taxonomic groups. SEC10 and SEC15 genes from the three evolutionary groups of plants (green algae - Klebsormidium nitens, mosses - Marchantia polymorpha, angiosperms - Arabidopsis thaliana) were cloned into yeast two-hybrid vectors for studying protein interactions. Testing the interaction of SEC10 and SEC15 exocyst subunits from different plant species in the yeast-two hybrid system showed that despite partially different protein sequences of the tested subunits, their interaction across different evolutionary groups of plants remains very well conserved.
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The Role of selected exocyst subunits in response of plants to pathogen
Sabol, Peter ; Kulich, Ivan (advisor) ; Burketová, Lenka (referee) ; Dagdas, Yasin (referee)
In the recent years, there has been a growing number of publications indicating at the involvement of plant secretory pathway in defense against phytopathogens. Specifically, roles of plant exocyst complex have been explored in deeper detail in current research. Yet, exactly how exocyst- mediated exocytosis contributes to secretion of antimicrobials and cell wall-based defense remains unclear. In the presented Dissertation, I provide both experimental evidence and devise further hypotheses on selected exocyst's subunits in plant immune reactions. Particularly, I show that EXO70B1 exocyst subunit interacts with immunity-related RIN4 protein. Cleavage of RIN4 by AvrRpt2 Pseudomonas syringae effector protease releases both RIN4 fragments and EXO70B1 from the plasma membrane when transiently expressed in Nicotiana benthamiana leaves. I speculate on how this might have an implication in regulation of polarized callose deposition. In a co-authored opinion paper, we also hypothesize that EXO70B1-mediated autophagic degradation of TN2 resistance protein prevents its hyperactivation and lesion mimic phenotype development. In addition, in collaboration with my colleagues, I present data on EXO70H4's engagement in PMR4 callose synthase secretion, required for silica deposition. Representing a possible...
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The acrosome reaction in mammalian sperm
Picková, Jana ; Frolíková, Michaela (advisor) ; Kuntová, Barbora (referee)
The acrosome reaction (AR) of the sperm is a prerequisite for egg fertilization, which takes place in the female reproductive tract. The AR allows sperm to penetrate extracellular egg coats and fuse with the egg. At first, the sperm must undergo the process called capacitation, then AR is initiated and acrosomal content is released. While it is not clear, what initiates the AR, it is probably the egg's extracellular coats - the zona pellucida and cumulus cells, secreting progesterone and some other substances, which can initiate the AR. Lately, it was demonstrated, that in the mouse the most sperms undergo the AR in the upper isthmus of the oviduct. Only a few sperms reach the ampulla, but all of them can fertilize eggs. During the AR, the acrosomal content is released into the extracellular space. It was discovered, that the release of acrosomal proteins is not synchronous, soluble components are released faster from the acrosome than are acrosomal matrix proteins. Before the acrosomal release, G-coupled receptors and tyrosine kinase receptors activate phospholipases. Protein kinases are also activated, which results in the opening of Ca2+ channels in the acrosome and sperm plasma membrane and the release of Ca2+ . The increase of Ca2+ leads to actin depolymerization, membrane fusion, and finally,...
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Function study of EXO70H7 and EXO70H8 genes in Arabidopsis thaliana development.
Modráčková, Jana ; Kubátová, Zdeňka (advisor) ; Soukup, Aleš (referee)
Complex Exocyst consists of eight proteins and it is known as a Sec6/8. Its composition is evolutionarily highly conserved amongst all the species. This complex is involved in vesicle trafficking as a part of attaching mechanism to a specific place on the plasma membrane. EXO70 subunit has been found in 23 copies in Arabidopsis thaliana genome. In this study we have been examine paraloges EXO70H7 and EXO70H8. There have been suggestions that these genes are important in development of roots according to the previous studies. We have not been able to identify any significant phenotype within the mutant plants in these genes. There has been studied other mutant appearance during the stress experiments. Most of these experiments did not identify any divergence. Only experiments with germination during stress conditions revealed significantly worse germination of exo70H7 mutant seeds on the medium containing sorbitol. This suggests that mutant seeds have a worse protection against osmotic stress. Significantly worse germination of exo70H8 seeds on the medium with excess NaCl indicates that these seeds incriminate to higher absorption of sodium ions. Analysis of the cell localization of GFP constructs brought knowledge of appearance EXO70H7 and EXO70H8 proteins. EXO70H7 locates in the cytoplasm and in...
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Plant tomosyns and their role in secretion
Dejová, Lilly ; Hála, Michal (advisor) ; Fendrych, Matyáš (referee)
Tomosyn is a protein belonging to the Lgl family and conserved across the animal and plant kingdom. Tomosyn is composed of N-terminal domain containing WD40 motif and Cterminal domain, where the R-SNARE motif is located at the end of the C-terminal domain. This motif is classified as homologous to R-SNARE motif of synaptobrevine, which is a protein located on the surface of the vesicles and participating in the formation of SNARE complex and subsequent fusion of the vesicles with the plasma membrane. Thus the role of this tomosyn is mainly the regulation of exocytosis. Apart from the animal tomosyn, its yeast homolog Sro7/Sro77 is also examined, however during the evolution it has lost its R-SNARE motif and therefore the plant tomosyns remain unexplored. The aim of this diploma thesis was to characterize both of the plant tomosyns: AtTYN1 and AtTYN2 in Arabidopsis thaliana plant. The experimental thesis included the bioinformatic analysis, the DNA construct creation, a search for interactors by yeast two-hybrid system and monitoring the localization using the confocal microscope. The bioinformatic analysis results, including the creation of phylogenetic tree, not only revealed the conservation of tomosyns across the different classes, but also the division of both tomosyns into different clusters. There was...
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The Role of selected exocyst subunits in response of plants to pathogen
Sabol, Peter ; Kulich, Ivan (advisor) ; Burketová, Lenka (referee) ; Dagdas, Yasin (referee)
In the recent years, there has been a growing number of publications indicating at the involvement of plant secretory pathway in defense against phytopathogens. Specifically, roles of plant exocyst complex have been explored in deeper detail in current research. Yet, exactly how exocyst- mediated exocytosis contributes to secretion of antimicrobials and cell wall-based defense remains unclear. In the presented Dissertation, I provide both experimental evidence and devise further hypotheses on selected exocyst's subunits in plant immune reactions. Particularly, I show that EXO70B1 exocyst subunit interacts with immunity-related RIN4 protein. Cleavage of RIN4 by AvrRpt2 Pseudomonas syringae effector protease releases both RIN4 fragments and EXO70B1 from the plasma membrane when transiently expressed in Nicotiana benthamiana leaves. I speculate on how this might have an implication in regulation of polarized callose deposition. In a co-authored opinion paper, we also hypothesize that EXO70B1-mediated autophagic degradation of TN2 resistance protein prevents its hyperactivation and lesion mimic phenotype development. In addition, in collaboration with my colleagues, I present data on EXO70H4's engagement in PMR4 callose synthase secretion, required for silica deposition. Representing a possible...
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Role of exocyst complex in growth and development of moss Physcomitrella patens
Rawat, Anamika Ashok ; Žárský, Viktor (advisor) ; Binarová, Pavla (referee) ; Fendrych, Matyáš (referee)
During the course of evolution the early land plants gained extensive innovations that can be seen in modern day plants. The polar growth is an ancient feature of eukaryotic cells and is one of preadaptations that helped plants in successful colonization of land. The polar growth in plants regulates not only the direction of cell expansion and structural properties of cell wall but especially also the orientation of cell division, and is governed by various factors, including the exocyst complex. The exocyst is a well conserved vesicle tethering multi-subunit complex involved in tethering of secretory vesicles to the target membrane. The essential role of the exocyst complex in regulation of various cellular processes in Angiosperms is now well documented. Here I present results of a doctoral project that contributed to phylogenetic analyses of the land plant exocyst complex and especially to uncovering functions of three moss exocyst subunits, namely EXO70 (isoform PpEXO70.3d), SEC6 and SEC3 (isoforms PpSEC3A and PpSEC3B) in the model organism Physcomitrella patens. Various knock-out (KO) mutants in several moss exocyst subunits (Ppexo70.3d, Ppsec6, Ppsec3a and Ppsec3b) show pleiotropic defects directly or indirectly linked to the cell polarity regulation. Cell elongation and differentiation,...
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Subunits of exocyst complex in the development of Arabidopsis epidermis
Vojtíková, Zdeňka ; Žárský, Viktor (advisor) ; Soukup, Aleš (referee)
Exocyst is protein complex evolutionary conserved in yeasts, animals and plants, which plays a role in control of cell morphogenesis and polarity. It is a tethering complex whose function is to attach secretory vesicles to specifi c foci on plasma membrane. Complex exocyst is formed by eight subunits. Subunit EXO70 is encoded by 23 paralogue genes in genome of Arabidopsis thaliana. Mutation in paralogue subunit EX070H4 causes defect in trichome maturation. Mutant trichomes have thin, not reinforced cell wall, making them soft and elastic. Transcription of EXO70H4 gene is induced by UV radiation, therefore observations of plants cultivated on UV-B radiation were done. Analysis of mutants cultivated on UV-B radiation revealed hyperaccumulation of vesicules in cytoplasm, which were visible by light microscope. Hyperaccumulation was not observed in control plants cultivated on UV-B radiation, but thickening of cell wall was induced. Th is reaction to UV in trichomes hasn't been described yet. Analysis of cellular localization made with YFP tagged constructs revealed that EXO70H4 localizes into mobile corpuscules associating with Golgi apparatus. It was found with yeast two hybrid system that EXO70H4 interacts with TRS120, subunit of tethering complex TRAPPII which is active in Golgi apparatus....
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