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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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Binding of eIF3 in complex with eIF5 and eIF1 to the 40S ribosomal subunit is accompanied by dramatic structural changes
Zeman, Jakub
In eukaryotic translation, eukaryotic initiation factors (eIFs) are at least as important as the ribosome itself. Some of these factors play different roles throughout the entire process to ensure proper assembly of the preinitiation complex on mRNA, accurate selection of the initiation codon, errorless production of the encoded polypeptide and its proper termination. Perhaps, the most important factor integrating signals from others and coordinating their functions on the ribosome is eIF3. In Saccharomyces cerevisiae, eIF3 is formed by five subunits. All these subunits contain structural motifs responsible for contact with ribosomal proteins and RNAs. In addition to these highly structured parts, the rest of eIF3 is unstructured and very flexible. Therefore, despite the recent progress thanks to the use of a cryo-electron microscopy, a precise structure and position of eIF3 on the 40S ribosomal subunit are still not known. Also, the presence of eIF3 on 80S during early elongation and its role in reinitiation and readthrough are not fully understood. In order to crack mysteries of yeast eIF3, we used x-ray crystallography, chemical cross- linking coupled to mass spectrometry, and various biochemical and genetic assays. We demonstrated that eIF3 is very compactly packed when free in solution. This...
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Binding of eIF3 in complex with eIF5 and eIF1 to the 40S ribosomal subunit is accompanied by dramatic structural changes
Zeman, Jakub ; Valášek, Leoš (advisor) ; Štefl, Richard (referee) ; Man, Petr (referee)
In eukaryotic translation, eukaryotic initiation factors (eIFs) are at least as important as the ribosome itself. Some of these factors play different roles throughout the entire process to ensure proper assembly of the preinitiation complex on mRNA, accurate selection of the initiation codon, errorless production of the encoded polypeptide and its proper termination. Perhaps, the most important factor integrating signals from others and coordinating their functions on the ribosome is eIF3. In Saccharomyces cerevisiae, eIF3 is formed by five subunits. All these subunits contain structural motifs responsible for contact with ribosomal proteins and RNAs. In addition to these highly structured parts, the rest of eIF3 is unstructured and very flexible. Therefore, despite the recent progress thanks to the use of a cryo-electron microscopy, a precise structure and position of eIF3 on the 40S ribosomal subunit are still not known. Also, the presence of eIF3 on 80S during early elongation and its role in reinitiation and readthrough are not fully understood. In order to crack mysteries of yeast eIF3, we used x-ray crystallography, chemical cross- linking coupled to mass spectrometry, and various biochemical and genetic assays. We demonstrated that eIF3 is very compactly packed when free in solution. This...
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Characterization of the molecular mechanism of translation reinitiation in yeast.
Pondělíčková, Vanda ; Valášek, Leoš (advisor) ; Hašek, Jiří (referee) ; Vopálenský, Václav (referee)
Translation initiation is a multi-step process culminating in formation of the elongation- competent 80S ribosome. It requires accurate assembly of small and large ribosomal subunits, mRNA, initiation Met-tRNAi Met and at least 12 eukaryotic initiation factors (eIFs). This phase of protein synthesis is also one of the key points of regulation of gene expression. One of the main aims of our laboratory is a complex characterization of the multiprotein eIF3 complex that has been implicated in most of the steps of translation initiation. For example, we revealed and described its novel role in translation reinitiation (REI), a gene-specific translational control mechanism that among others governs expression of an important yeast transcriptional activator GCN4. Here I present a detailed characterization of the multi-functional N-terminal domain of Tif32 (subunit eIF3a). We demonstrated that the Tif32-NTD functionally interacts with the 5' sequences of short upstream ORF (uORF1) in the GCN4 mRNA leader and thus allows efficient reinitiation downstream of this critical reinitiation-permissive uORF. Four REI- promoting elements (RPEs) were identified in the 5' sequences of uORF1, two of which were shown to work in the Tif32-NTD-dependent manner. The structure of the 5' sequences was determined...
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Mapping the contact points between eukaryotic translation initiation factor eIF3 and the 40S ribosomal subunit.
Kouba, Tomáš ; Valášek, Leoš (advisor) ; Pospíšek, Martin (referee) ; Staněk, David (referee)
Translation initiation in eukaryotes is a multistep process requiring the orchestrated interaction of several eukaryotic initiation factors (eIFs) together with the small ribosomal subunit to locate the mRNA's translational start and to properly decode the genetic message that it carries. The largest of these factors, eIF3, forms the scaffold for other initiation factors to promote their spatially coordinated placement on the ribosomal surface. It is our long-standing pursuit to map the 40S-binding site of the yeast multisubunit eIF3 and here we present three new mutual interactions between these two macromolecules (i) The C-terminal region of the eIF3c/NIP1 subunit is comprised of the conserved bipartite PCI domain and we show that a short C-terminal truncation and two clustered mutations directly disturbing the PCI domain produce lethal or slow growth phenotypes and significantly reduce amounts of 40S-bound eIF3 in vivo. The extreme C-terminus directly interacts with small subunit ribosomal protein RACK1/ASC1, which is a part of the 40S head, and, consistently, deletion of ASC1 impairs eIF3 association with ribosomes. The PCI domain per se shows strong but unspecific binding to RNA, for the first time implicating this protein fold in protein-RNA interactions. We conclude that the c/NIP1...
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Influence of rRNA modifications on translation initiation in eukaryots
Kročová, Eliška ; Pospíšek, Martin (advisor) ; Kouba, Tomáš (referee)
Modifications of ribosomal RNA are present in every livivng organism. The function of rRNA modifications could be studied only when the process of modifications was described. Currently, scientists study not only individual modifications but also the importance of global level of modifications for maturation and function of ribosome. This thesis deals with the influence of 2'-O-methylation of citidine 1639 and adenosine 100 in 18S rRNA and uridine 2729 in 25S rRNA on initiation in yeast Saccharomyces cerevisiae with special attention of translation controlled by internal ribosome entry site (IRES). Strains with deletion in genes snR51, snR70 and duoble deletion in both genes were successfully created during my master study. Pilot experiments showed the importance of products of both genes in translation initiation.
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Preparation of yeast system for investigation of the human translation initiation
Holásková, Lucie ; Pospíšek, Martin (advisor) ; Cuchalová, Lucie (referee)
Protein synthesis is principally regulated at the initiation stage in which eIF4F complex plays an important role. The eIF4F complex contains three subunits - eIF4A, eIF4E and eIF4G. The eIF4E is cap binding protein, the eIF4A is RNA dependent helicase which unwinds secondary structures at mRNA and scaffolding eIF4G protein. The interaction with other translation initiation factors is important for protein synthesis. The goal of my thesis was to create a new Saccharomyces cerevisiae yeast strain with the human eIF4F factor. Firstly I replaced yeast eIF4E protein with human eIF4E protein. I used a cre/loxP recombination to prepare yeast strains with deleted genes eIF4GI (huΔ4G1) and eIF4GII (huΔ4G2). Characterization of the new yeast strains showed that the human eIF4E protein replaced yeast ortholog factor better than the eIF4E protein from yeast Candida albicans. First experiments showed putative role of the eIF4GII protein during the cell growth under the temperature and osmotic stress. Key words: translation initiation, eIF4E, eIF4G, Saccharomyces cerevisiae
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The role of the N-terminal domain of the a/TIF32 subunit of eIF3 in mRNA recruitment to the 43S pre-initiation complexes.
Vlčková, Vladislava ; Valášek, Leoš (advisor) ; Mašek, Tomáš (referee)
Translation initiation is a complex process which results in the assembly of the elongation competent 80S ribosome from the 40S and 60S ribosomal subunits, the initiator tRNA and mRNA, and is orchestrated by numerous eukaryotic initiation factors (eIFs). Although it represents one of the most regulated processes of gene expression, the exact mechanism of one of the key steps of translation initiation - mRNA recruitment to the 43S pre-initiation complex (PIC) - is still only poorly understood. Recent studies indicated that besides eIF4F and poly(A)-binding protein, also eIF3 might play an important, if not crucial, role in this step. In our laboratory, we recently identified a 10 Ala substitution (Box37) in the a/TIF32 subunit of Saccharomyces cerevisiae eIF3, which interfered with translation initiation rates. Detailed analysis showed that this mutation significantly reduces the amounts of model mRNA in the gradient fractions containing 48S PICs as the only detectable effect in vivo. Moreover, a recently solved crystal structure of the N-terminal part of a/TIF32 pointed to two Box37 residues, Arg363 and Lys364, both proposed to contribute to one of the positive, potentially RNA-binding areas on the a/TIF32 surface. The fact that also their substitutions with alanines severely impaired the mRNA recruitment...
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Dissection of eIF3 functional domains promoting the 48S pre-initiation complex assembly
Beznosková, Petra ; Valášek, Leoš (advisor) ; Novotný, Marian (referee)
In eukaryotes, translation initiation is guided by up to twelve protein initiation factors (eIFs) and begins with the formation of the 43S pre-initiation complex (PIC) composed of the small ribosomal subunit (40S), eIF2.GTP/Met-tRNAi Met ternary complex, and eIFs 1, 1A, 3 and 5. The 43S PIC subsequently interacts with the 5'end of an mRNA (an mRNA recruitment step) and thus formed 48S PIC travels in 5' to 3' direction along the mRNA leader sequence to locate the AUG start codon (this presumably linear movement is generally known as scanning). Start site selection results in the dissociation of the initiation factors and joining of the large (60S) ribosomal subunit to form the 80S initiation complex poised for elongation. Eukaryotic initiation factor 3 (eIF3) plays a critical role in most of these events; however, the molecular details of most of its contributions are still unknown to us. Previous in vivo studies generated numerous mutations in all eIF3 subunits with specific defects either in the PICs assembly or in the following steps such as scanning, AUG recognition, etc. To understand the exact role of eIF3 in this intriguing process at the molecular level, we have embarked on a study that aims to dissect the individual functions of each eIF3 subunit in translation initiation using the purified...
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Screening for the HCV IRES interacting proteins
Roučová, Kristina ; Pospíšek, Martin (advisor) ; Kuthan, Martin (referee)
Hepatitis C virus (HCV) is a worldwide spread pathogen infecting up to 3 % of the human population. Nowadays, research of new drugs against this virus is focused on the individual steps in its life cycle, including the translation initiation. In the case of HCV translation initiation is dependent on the internal ribosome entry site (IRES). Besides of components of the translational machinery also other components of the cell, so called IRES trans-acting factors (ITAF), contribute to its proper progress. This work continues in previous research of our laboratory focused on searching for new ITAF. In order to search for potential ITAF increasing HCV IRES activity new recombinant plasmid vectors and reference strains were prepared and selection conditions of the selection system were optimized. The differences in the growth characteristics of the reference strains were analyzed and quantified under selective and non-selective conditions. A set of pilot high efficiency transformations of the yeast strain pJ69-4A carrying bicistronic construct with HCV IRES were conducted using human expression cDNA library in order to optimize the efficiency of transformation and selection conditions and to attempt to identify new ITAF. Several dozens of randomly selected clones from these transformations obtained under...
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