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Structural and functional characterization of the E3 ligase BIRC6
GRATZL, Sascha
The aim of the thesis was to characterize the ubiquitin ligase BIRC6 in several contexts. The goal was to expand the knowledge on the selectivity of E1-E2 recognition, to increase the known substrate range of BIRC6, and to elucidate the molecular interactions fulfilled by BIRC6 during autophagy via interaction with GABARAP. In addition, it was aimed to gain a better understanding on the general ubiquitination mechanism in E2/E3 hybrid enzymes, to identify the ubiquitination sites of known apoptotic and autophagic substrates and to enlighten substrate recognition by BIRC6.
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Vazba paralogů EXO70 na ATG8 a funkční rozdělení rodiny EXO70 dle účasti v autofagii (Arabidopsis thaliana).
Semerádová, Hana ; Kulich, Ivan (advisor) ; Motyka, Václav (referee)
The exocyst, an octameric protein complex conserved among all eukaryotes, mediates tethering of the vesicle prior to its fusion with the target membrane. Apart from the function of exocyst in exocytosis, new studies from both mammalian and plant fields report its involvement in the cellular self-eating process called autophagy. In land plants the number of paralogs of some exocyst subunits is extraordinarily large. There are 23 paralogs of Exo70 subunit in Arabidopsis thaliana. It is supposed that these paralogs have acquired functional specialization during the evolution - including involvement in autophagy. Using yeast two- hybrid assay it is shown here that Exo70B1 and Exo70B2, but not other Arabidopsis Exo70 paralogs interact with Atg8, an autophagosomal marker. The proximity of these two paralogs and Atg8 in vivo was confirmed by independent Förster resonance energy transfer (FRET) method. Interestingly, interaction of Atg8f with Exo70B2 paralog appears to be stronger than with Exo70B1. Exo70B1-mRUBY expressed under the natural promoter shows punctate membrane structures that are mostly static. That changes after the tunicamycin treatment - movement of some of these dots was induced. Homology modeling of Exo70B1 and Exo70B2 proteins tertiary structure in combination with bioinformatic prediction based...
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Vazba paralogů EXO70 na ATG8 a funkční rozdělení rodiny EXO70 dle účasti v autofagii (Arabidopsis thaliana).
Semerádová, Hana ; Kulich, Ivan (advisor) ; Motyka, Václav (referee)
The exocyst, an octameric protein complex conserved among all eukaryotes, mediates tethering of the vesicle prior to its fusion with the target membrane. Apart from the function of exocyst in exocytosis, new studies from both mammalian and plant fields report its involvement in the cellular self-eating process called autophagy. In land plants the number of paralogs of some exocyst subunits is extraordinarily large. There are 23 paralogs of Exo70 subunit in Arabidopsis thaliana. It is supposed that these paralogs have acquired functional specialization during the evolution - including involvement in autophagy. Using yeast two- hybrid assay it is shown here that Exo70B1 and Exo70B2, but not other Arabidopsis Exo70 paralogs interact with Atg8, an autophagosomal marker. The proximity of these two paralogs and Atg8 in vivo was confirmed by independent Förster resonance energy transfer (FRET) method. Interestingly, interaction of Atg8f with Exo70B2 paralog appears to be stronger than with Exo70B1. Exo70B1-mRUBY expressed under the natural promoter shows punctate membrane structures that are mostly static. That changes after the tunicamycin treatment - movement of some of these dots was induced. Homology modeling of Exo70B1 and Exo70B2 proteins tertiary structure in combination with bioinformatic prediction based...
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