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The role of ribosomal proteins in the plant development
Jirásková, Veronika ; Raabe, Karel (advisor) ; Smýkal, Petr (referee)
The translation is one of the fundamental cell processes, in which the protein is synthesized according to the sequence of the mRNA molecule. The foremost recognized element of the translation machinery is the ribosome, a molecule complex composed by rRNAs and ribosomal proteins. In plants, ribosomal proteins are encoded by more than one gene, which may lead to sub- functionalization and neo-functionalization of ribosomal protein paralogs in plant development or in the reaction to the contemporary environment. Assembly of ribosomal subunits from different ribosomal protein paralogs could lead to functionally distinct pools of ribosomes with specialized role in the translation and its regulation in plants. The aim of this work is to review current data regarding the individual ribosomal proteins function within the plant growth and development. Keywords translation, translation regulation, ribosome, ribosomal proteins
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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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Role of RACK1 in translation regulation during stress conditions
Chvalová, Věra ; Groušl, Tomáš (advisor) ; Převorovský, Martin (referee)
RACK1 (Receptor for activated C kinase 1) is an evolutionary conserved protein which has essential role in most studied eukaryotic organisms, except for yeast. Although RACK1 was originally described as a binding partner of protein kinase C, later studies re- vealed its significant role in other cellular signalizations such as MAPK, Src or FAK. Thanks to this, RACK1 participates in the regulation of key cellular processes including migration, apoptosis or translation. As a binding partner of a small ribosomal subunit, RACK1 contributes to transla- tion regulation by integrating signals from different cellular pathways and several transla- tional components such as PKC and eIF6. Moreover, RACK1 has a role in translation regu- lation during stress. Under stress conditions there is a global reduction of translation, in- creased expression of specific mRNAs important for cellular stress response and formation of cytosolic foci called stress granules (SGs). SGs play an important role in protection of mRNAs and translation components against degradation. SGs also function in prevention of apoptosis. RACK1 has been identified as one of many components of SGs and its localization into SGs leads to inhibition of RACK1-mediated pro-apoptotic pathways. Aim of this diploma thesis was to elucidate the role of...
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The function of ABCF proteins in bacteria
Mičke, Bianka ; Balíková Novotná, Gabriela (advisor) ; Lišková, Petra (referee)
Translation belongs to the most basic processes which happens in the living cells. It is the last step of proteosynthesis when genetic information encoded by the mRNA is transformed into the protein on a ribosome. Organisms have developed a wide range of mechanisms that can regulate it's needs. I focused on one of them - ABCF proteins. This protein group is a member of the ABC transporters superfamily but they haven't a transmembrane domain and their purpose is protect the ribosomes from antibiotics that bind 50S ribosomal subunit or interact with the ribosomes and influence ribosomal functions. Today, we can divide ABCF proteins into the two functional groups: antibiotic resistence proteins (ARE) and proteins with the regulatory functions. The translational regulatory function has been confirmed There is 45 ABCF protein subfamilies spread through the bacteries and eukaryotes but many essential informations like the structure and exact function of them are still missing. My bachelor thesis is analysis and summary of facts that are known about the bacterial ABCF proteins. Key words: ABCF proteins, antibiotic resistence, ARE, translational regulation, ribosome, translation, translational factors
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Eukaryotic translation initiation factor 3 and its role in plant translation regulation
Raabe, Karel ; Michailidis, Christos (advisor) ; Retzer, Katarzyna (referee)
After transcription, mRNA translation is another highly regulated process in gene expression. In plants, translation regulation plays an important role during progamic phase, fertilization and seed development, where synthesized transcripts are stored and selectively translated later in development. Translation regulation is also broadly used in stress responses as a fast and flexible tool to change gene expression; therefore, it plays an essential role in the survival strategy of sessile organisms like plants. Both regulation of the global translational rate as well as selective regulation of specific transcripts modulate the final gene expression response. Most of the regulatory mechanisms are concentrated in the stage of initiation, which is facilitated by several translation initiation factors. Eukaryotic translation initiation factor 3 (eIF3) is the largest and most complex of these factors, consisting of 12 conserved subunits. Its key function in the initiation is to scaffold the formation of the translation initiation complex and in the scanning mechanism accuracy. In past decades, additional eIF3 functions were discovered acting upon the whole translation cycle, including its importance in global and specific translation regulation. The aim of this work is to review eIF3 functions and to...
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