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Analysis of Gretchen Hagen 3 gene family in tobacco BY-2 cell culture
Helusová, Lenka ; Müller, Karel (advisor) ; Pěnčík, Aleš (referee)
Auxin conjugation is one of the crucial metabolic processes regulating auxin activity in plant cells. Gretchen Hagen 3 (GH3) is a family of acyl amido synthetases that conjugates auxin with amino acids and belongs amongst important enzymes involved in auxin conjugation. Due to the existence of more sensitive methods to detect auxin metabolites and the current study of abiotic stress effects, research on GH3 enzymes is intensified these days. These enzymes are best known in thale cress (Arabidopsis thaliana), soya bean (Glycine max), rice (Oryza sativa). These models don't allow to study their activities in a biochemical way. Therefore, the aim of this work was to monitor the auxin metabolism in the established model tobacco BY-2 cell lines (Nicotiana tabacum). The NtGH3.1 and NtGH3.6 genes, which were shown to have a variability in their expression regulation by auxin, were targeted and mutated using tne CRISPR/Cas9 method. Mutations in the derived lines were detected by sequencing. In the derived lines, auxin metabolic profililing was analysed by LC/MS. Metabolic profiling showed a correlation between the NtGH3.6d form and the specific production of the metabolite oxIAA- Gln (N-(2-onindole-3-acetyl)-glutamine). The study of an eventual substitution of individual GH3 gene forms in mutant lines...
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Molecular base of plant HSP90-MT interaction
Benáková, Martina ; Krtková, Jana (advisor) ; Malcová, Ivana (referee)
Microtubules (MTs) are one of the essential cell structure that participate in a number of key events in the plant cells and their properties and functions are influenced and modified by many other proteins. These proteins belong to a group of microtubule- associated proteins (MAPs, microtubule-associated proteins). One of the MAPs, the molecular chaperone Hsp90, examines and fulfills a large number of different functions in the cell. Its colocalization with MTs has been demonstrated previously by Freudenreich and Nick (1998) and Petrášek et al. (1998). However, direct interaction with MTs was described only recently using cosedimentation assay. The specific cytosolic isoform of tobacco Hsp90 bound to MTs was called Hsp90_MT due to its ability to bind MTs. It has been also found that the binding to MTs is independent on the activity of ATP (Krtková et al., 2012). The authors also described a positive effect of Hsp90_MT on MT recovery after their exposure to cold stress. Although MT cytoskeleton dynamics is influenced by a large number of MAPs, it is surprising that the molecular mechanism of MAPs interaction with MTs and their MT-binding domains have not been described yet. Therefore, we decided to determine the tobacco Hsp90_MT MT-binding domain by production of a set of recombinant proteins...
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Dynamics of de novo DNA methylation and its impact on transgene expression and CRISPR/Cas9 mutagenesis
Přibylová, Adéla ; Fischer, Lukáš (advisor) ; Pečinka, Aleš (referee) ; Fajkus, Jiří (referee)
Genetic information must be protected, maintained and copied from cell to daughter cells, from generation to generation. In plants, most of the cells contain complete genetic information, and many of these cells can regenerate to a whole new plant. Such a feature leads to the need for precise control of which genes will be active and which not because in growth and differentiation, only the activity of specific genes for the individual cells, tissues, organs are required. One of the mechanisms controlling the gene activity is RNA interference (RNAi), which down- regulates or blocks the expression of specific genes at the transcriptional or post-transcriptional level. The crucial part of the RNAi is guiding the RNAi machinery to the target. It is mediated via sequence complementarity of the target with a small RNA (sRNA), which is diced from a double- stranded RNA (dsRNA) precursor. The molecular mechanism of dsRNA and sRNA formation and also the target origin predestinates the subsequent silencing pathway. In transcriptional gene silencing (TGS), the gene expression is regulated through chromatin epigenetic modifications. One of the epigenetic marks is cytosine methylation, which is established mainly by RNA-directed DNA-methylation (RdDM) pathway. Although the protein machinery was relatively...
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Molecular base of plant HSP90-MT interaction
Benáková, Martina ; Krtková, Jana (advisor) ; Malcová, Ivana (referee)
Microtubules (MTs) are one of the essential cell structure that participate in a number of key events in the plant cells and their properties and functions are influenced and modified by many other proteins. These proteins belong to a group of microtubule- associated proteins (MAPs, microtubule-associated proteins). One of the MAPs, the molecular chaperone Hsp90, examines and fulfills a large number of different functions in the cell. Its colocalization with MTs has been demonstrated previously by Freudenreich and Nick (1998) and Petrášek et al. (1998). However, direct interaction with MTs was described only recently using cosedimentation assay. The specific cytosolic isoform of tobacco Hsp90 bound to MTs was called Hsp90_MT due to its ability to bind MTs. It has been also found that the binding to MTs is independent on the activity of ATP (Krtková et al., 2012). The authors also described a positive effect of Hsp90_MT on MT recovery after their exposure to cold stress. Although MT cytoskeleton dynamics is influenced by a large number of MAPs, it is surprising that the molecular mechanism of MAPs interaction with MTs and their MT-binding domains have not been described yet. Therefore, we decided to determine the tobacco Hsp90_MT MT-binding domain by production of a set of recombinant proteins...
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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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