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Role of TCTP1 in plant reproduction
Pitoňak, Oliver ; Hafidh, Said (advisor) ; Lafon Placette, Clément (referee)
TCTP is a conserved eukaryotic protein involved in regulation of multiple cellular processes, such as translation, cell cycle and cell death. Apart from its intracellular functions, TCTP is secreted and participates in human immune response. Dimerization via a terminal cysteine residue is critical for its extracellular function. Multiple sequence alignment of eukaryotic TCTPs revealed that terminal cysteine residue is conserved not only in animals but also in green plant lineage. In contrast to animal model organisms, knowledge about TCTP in plants is limited. Arabidopsis thaliana genome harbors two TCTP paralogs, TCTP1 and TCTP2. TCTP1 expression is highly upregulated in pollen. Previously published studies pointed to its role in embryo development, pollen tube growth and targeting. Using mutant characterization and analysis of subcellular localization, the role of TCTP1 in plant reproduction was investigated in this thesis. Recombinant Arabidopsis thaliana TCTP1 protein was produced along with its potential interacting partners BRL2 and TTL3 in heterologous Escherichia coli system. tctp-1 T- DNA line characterization pointed to TCTP1 role in pollen tube growth. It was expressed in mature pollen and pollen tube under native promoter and localized to the cytoplasm. Recombinant AtTCTP1 formed dimers...
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Dynamics and variability of induced transgene silencing in tobacco cell line BY-2
Čermák, Vojtěch ; Fischer, Lukáš (advisor) ; Pečinka, Aleš (referee) ; Lafon Placette, Clément (referee)
RNA interference (RNAi) is an important mechanism regulating gene expression. In plants, RNAi is triggered by double-stranded RNA (dsRNA) which is processed into small RNAs (sRNAs), usually 21-24 nt long. The sRNAs are loaded into Argonaut (AGO) protein and recognize the target based on sequence complementarity. When the target is mRNA, they can slice it or block translation leading to posttranscriptional gene silencing (PTGS). When the target is DNA, they can induce DNA methylation and chromatin changes, which when present in the promoter can lead to transcriptional gene silencing (TGS). The individual components of RNAi are well described, but less is known about the impact of different types of dsRNA precursors on the dynamics of RNAi. To study these aspects of RNAi, we used tobacco BY-2 cell line expressing GFP reporter and inducible silencers. The silencers used different ways of triggering the dsRNA formation by transcripts from antisense (AS), unterminated sense (UT) and inverted repeat (IR) GFP sequence to initiate PTGS. Additionally, one IR silencer based on the CaMV 35S promoter initiated TGS. This allowed us to study RNAi from the beginning throughout the steady state level and till the recovery phase, all in the highly homogeneous system. Using this system, we described several features...
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