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Expression and purification of proteins with unnatural aminoacids, and determination of their structure by combination of chemical or photochemical modification and mass spectrometry
Bortel, Tomáš ; Ječmen, Tomáš (advisor) ; Kavan, Daniel (referee)
Residue-specific non-natural amino acid (NNAA) incorporation has become a widely used approach to introduce bioorthogonal groups and therefore functionalities into proteins26 . These functionalities are harnessed through click chemistry, conjugating labelled proteins to affinity or fluorescent probes. A less utilized approach involves probing the effects of bioorthogonal groups on the structure-function relationship of labelled proteins47 . In order to investigate these relationships, there is a need to express large amounts of proteins with maximal incorporation of NNAAs. Here, we employed photo-methionine (pMet), azidohomoalanine (AHA) and homopropargylglycine (HPG) as methionine (Met) surrogates. We investigated the impact of these NNAAs on bacterial growth of prototrophic E. coli BL21 or Met- -auxotrophic E. coli B834 in Met-free MM-M9 medium. We monitored the expression of cytochrome b5 (cyt b5) and MBP-GFP. Using MS and LC-MS based approaches, we determined the NNAA incorporation in these recombinant proteins. Prototrophic E. coli BL21 expressed significantly higher amounts of cyt b5 compared to B834 with pMet and AHA, but the incorporation rates fell sharply after 4 hours. In contrast, Met-auxotrophic B834 expressed smaller amounts of protein, but with incorporation of pMet in 50 - 70% range...
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Proteomická a bioinformatická charakterizace N-terminálních sekvencí proteinů modifikovaných po importu do hydrogenosomu Trichomonas vaginalis.
Zákoucká, Eva ; Man, Petr (advisor) ; Šulc, Miroslav (referee)
Trichomonas vaginalis is a human pathogen causing trichomoniasis, one of the most common non-viral sexually transmitted diseases in both men and women. Trichomoniasis is currently treated with metronidazole, but the pathogen is known to develop resistance against this drug. However as the pathogen is eukaryotic, the targets for the pathogen elimination without seriously affecting the host are limited. Throughout the evolution Trichomonas vaginalis adapted to anaerobic environments by developing an alternative metabolism resulting in a reduced form of mitochondria named hydrogenosome. Hydrogenosomes lack genetic information, therefore all its proteins are nucleus-encoded and need to be transported inside the hydrogenosome using a targeting N-terminal presequence. The peptidase recognizing and cleaving those presequences at the entrance of the organelle, the hydrogenosomal processing peptidase (HPP), is unique for hydrogenosomes and therefore represents a potential drug target against the pathogen. In this work the HPP's substrate specificity towards the targeting presequences was investigated. To do so a proteomic analysis of the proteome of Trichomonas vaginalis hydrogenosomes was performed using a novel optimized protocol for N-terminal peptide sequencing. N-terminal peptides were captured using a...
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Proteomická a bioinformatická charakterizace N-terminálních sekvencí proteinů modifikovaných po importu do hydrogenosomu Trichomonas vaginalis.
Zákoucká, Eva ; Man, Petr (advisor) ; Šulc, Miroslav (referee)
Trichomonas vaginalis is a human pathogen causing trichomoniasis, one of the most common non-viral sexually transmitted diseases in both men and women. Trichomoniasis is currently treated with metronidazole, but the pathogen is known to develop resistance against this drug. However as the pathogen is eukaryotic, the targets for the pathogen elimination without seriously affecting the host are limited. Throughout the evolution Trichomonas vaginalis adapted to anaerobic environments by developing an alternative metabolism resulting in a reduced form of mitochondria named hydrogenosome. Hydrogenosomes lack genetic information, therefore all its proteins are nucleus-encoded and need to be transported inside the hydrogenosome using a targeting N-terminal presequence. The peptidase recognizing and cleaving those presequences at the entrance of the organelle, the hydrogenosomal processing peptidase (HPP), is unique for hydrogenosomes and therefore represents a potential drug target against the pathogen. In this work the HPP's substrate specificity towards the targeting presequences was investigated. To do so a proteomic analysis of the proteome of Trichomonas vaginalis hydrogenosomes was performed using a novel optimized protocol for N-terminal peptide sequencing. N-terminal peptides were captured using a...
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Cytochrome P-450: Study of structure and interactions using chemical modification, photo-initiated cross-linking and mass spectrometry
Ječmen, Tomáš ; Šulc, Miroslav (advisor) ; Petrák, Jiří (referee) ; Šebela, Marek (referee)
ABSTRACT Mixed function oxygenase system participates in biosynthesis of endogenous and metabolism of exogenous substances (e.g. drugs or chemical procarcinogens) in an organism. Substrates are biotransformed by terminal oxygenases - cytochromes P450 (P450). Catalytic properties of certain P450s (e.g. studied isoform 2B4) are altered in the presence of a redox partner - cytochrome b5 (cyb5). Both cytochromes are anchored by hydrophobic domains in a lipid membrane of endoplasmic reticulum whereas their catalytic domains are exposed to cytosol. Two zero-length cross-linking approaches were employed to extend present knowledge of P450 2B4 and cyb5 protein structure and protein-protein interactions: (1) interlinking of carboxylate and primary amine groups of amino acids by water soluble 1- ethyl-3-(3-dimethylaminopropyl)carbodiimide (EDC), and (2) photo-initiated cross-linking by photo-labile methionine analog (pMet), which links to any amino acid after activation by UV-irradiation, either in hydrophilic or hydrophobic environment. pMet was incorporated to methionine site(s) of cyb5 during recombinant expression in E. coli, which was carried out in limit medium supplemented with amino acid analog. Optimization of experimental conditions led to ~20-30% substitution of the natural amino acid. Covalent...
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Studies of properties of the minor structural proteins of the Murine polyomavirus
Bílková, Eva ; Forstová, Jitka (advisor) ; Němečková, Šárka (referee)
Murine polyomavirus (MPyV) is a member of the Polyomaviridae family. Its capsid is composed of the major capsid protein, VP1, and the minor proteins, VP2 and VP3. The minor capsid proteins probably assure delivery of the viral genome through the endoplasmic reticulum membrane to the nucleus during early phase of infection. However, precise mechanism is not known. Expression plasmids encoding mutated VP2 or VP3 fused with EGFP have been constructed to study the interaction of VP2 and VP3 with membranes. The mutated proteins have deletions in the predicted hydrophobic domains. In this thesis, cell localisation of mutated proteins was followed. The study revealed that the hydrophobic domain 2 is the most important for association of VP2 and VP3 with membranes, while domains 1 and 3 are rather expendable. Further, nature of VP2 and VP3 isoforms has been studied. Isoforms with different electrophoretic mobility were separated on SDS-PAGE. Consequent mass spectrometry analysis showed that they differ in deamidation of asparagine, present at both minor proteins (position 253 of VP2 and 137 of VP3). Previously, acetylation of VP3 N-terminal alanine has been identified. To elucidate the function of these modifications, mutated viruses were constructed with substitution of these amino acids. Pilot...
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