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Study of function and molecular architecture of fungal nitrilases applicable in biocatalysis
Veselá, Alicja Barbara ; Martínková, Ludmila (advisor) ; Macek, Tomáš (referee) ; Teisinger, Jan (referee)
Nitrilases are enzymes which catalyze the hydrolysis of a nitrile into the corresponding carboxylic acid and ammonia. These enzymes are potentially applicable in biocatalysis and bioremediation because of their advantages over the conventional (chemical) methods of nitrile hydrolysis (lower demand for energy, safety, simplicity, high yields, selectivity). In this work, genome mining was used to search for the sequences of hypothetical nitrilases from filamentous fungi. The amino acid sequences of previously characterized fungal nitrilases were used as the templates. Then the new synthetic genes together with other genes from our nitrilase library were expressed in E. coli and the substrate specificities of the enzymes thus produced were compared. Significant attention was focused on the relationships between the sequence of the enzyme and its substrate specificity. The arylacetonitrilases from Arthroderma benhamiae (NitAb) and Nectria haematococca (NitNh) were purified and characterized. Their substrate specificities, kinetic parameters, pH and temperature profiles and subunit and holoenzyme size were assessed. NitAb and NitNh together with other recombinant fungal nitrilases were employed in the hydrolysis of high concentrations of (R,S)-mandelonitrile in a batch or fed-batch mode. Nitrilase from...
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The substrate specificity of adenylation domains of synthetases in secondary methabolism.
Vobruba, Šimon ; Janata, Jiří (advisor) ; Fišer, Radovan (referee)
The crucial part of the biosynthesis of lincosamide antibiotics lincomycin and celesticetin is the condensation of amino sugar and amino acid moieties. This reaction is catalysed by the oligomeric enzyme lincosamide synthetase (LS). One of the most important components of LS is adenylation domain recognizing and activating amino acid precursor. The substrate specificity of adenylation domain is determined by "nonribosomal code", 10 amino acids residues which side chains are in close contact with the activated substrate. The homologous adenylation domains LmbC from biosynthesis of lincomycin and CcbC from biosynthesis of celesticetin exhibit strong substrate specificity for their natural substrates (2S,4R)-4-propyl-L-proline (PPL) and L-proline, respectively. At first the effect of selected amino acid residues of LmbC nonribosomal code on the substrate specificity of the whole domain was tested. The amino acids residues, most important for preference of PPL substrate over L proline, were determined: G308, A207 and L246. Then the effect of double mutations in nonribosomal codes of both LmbC and CcbC on their substrate specificity was evaluated. The double mutants LmbC G308V + A207F and CcbC V306G + F205A were prepared and tested biochemically. The results brought new evidence of validity of homologous models...
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Secreted proteases of the liver fluke and their interaction with endogenous inhibitor
Buša, Michal ; Konvalinka, Jan (advisor) ; Ryšlavá, Helena (referee)
The liver fluke, Fasciola hepatica, is one of the most important parasites of livestock, and it also infects humans. The proteolytic system of trematodes is critical for their interaction with the host and is a potential target for the development of novel vaccines. This work is focused on proteases secreted by F. hepatica adults and on FheCy2, a new protease inhibitor from the cystatin family. The proteolytic activity of the secreted proteases was analyzed using: (a) chromogenic protein substrates and fluorogenic peptide substrates, (b) selective protease inhibitors, and (c) a fluorescent activity-based probe for visualization of proteases. The results showed that the secreted proteases are cysteine proteases of papain family belonging to cathepsins L and B. These proteases were effectivelly inhibited by FheCy2 as demonstrated by enzymological analysis. It can be assumed that FheCy2 participates in the physiological regulation of endogenous proteases secreted by F. hepatica adults, which makes it attractive candidate protein for vaccination studies. Key words: Fasciola hepatica, cathepsins, proteolytic activity, substrate specificity, protease inhibitors (In Czech)
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Characterisation of recombinant cathepsins B of the bird schistosome Trichobilharzia regenti
Dvořáková, Hana ; Mikeš, Libor (advisor) ; Dvořák, Jan (referee)
This study focuses on the recombinant cysteine peptidases - cathepsin B originating in the bird schistosome Trichobilharzia regenti that is unique across the whole family for its ability to migrate through the nerve tissue to the final localization. For invasion, migration, degradation of nutritional proteins and/or evasion of host immune responses, schistosome employs peptidases. This study follows the research done by researchers of Department of parasitology, Faculty of Natural Sciences, Charles University. The main goal of this study was to deepen the characteristics of recombinant cathepsins B originating in T. regenti. In T. regenti, two cysteine peptidases - cathepsins B1 (TrCB1) and B2 (TrCB2) - have been previously characterized. TrCB1 is located in the gut of schistosomula and involved in digestion. TrCB2 occurs in post-acetabular penetration glands of cercariae and probably facilitates penetration. The recombinant pro-cathepsin B (isoforms TrCB1.1, TrCB1.4 and also TrCB2) were expressed in Pichia pastoris yeast system. An attempt was made to produce in P. pastoris the recombinant isoform TrCB1.6, in which the active site cysteine is substituted by glycine. While TrCB2 underwent self-processing in the expression medium, TrCB1.1 and TrC1.4 zymogens were effectively activated only after the...
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Cathepsin L from the hard tick Ixodes ricinus: analysis of proteolytic activity and its regulation
Talacko, Pavel ; Konvalinka, Jan (advisor) ; Ryšlavá, Helena (referee)
The hard tick Ixodes ricinus is an important blood-feeding parasite that transmits tick- borne diseases, such as tick-borne encephalitis and Lyme disease. Ticks employ a battery of proteolytic enzymes, including cathepsins, to digest their bloodmeal. These proteins are potential targets for the development of anti-tick vaccines. This work is focused on cathepsin L from I. ricinus (IrCL), namely its isoenzymes IrCL1 and IrCL3. IrCL1 was expressed in Pichia pastoris and chromatographically purified. Its substrate specifity was determined by the cleavage of (a) peptide fluorogenic substrates and (b) protein substrates analyzed by mass spectrometry. The proteolytic activity of IrCL1 was modulated by its interaction with glycosaminoglycans, which affected the pH optimum value. Futhermore, a proteolytically active mutant of IrCL1 with reduced number of N-glycosylation sites was prepared; this form will be used for crystallization experiments. IrCL3 was expressed in Escherichia coli, refolded and activated to its active form. The proteolytic activity of IrCL3 is in many ascpects similar to that of IrCL1, including substrate specifity, acidic pH optimum and activity modulation by glycosaminoglycans. Key words: cysteine proteases, cathepsin L, hard tick I. ricinus, substrate specifity, proteolytic activity...
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Prolyl endopeptidase from the tick Ixodes ricinus
Petrvalská, Olívia ; Konvalinka, Jan (advisor) ; Ryšlavá, Helena (referee)
The ticks are important blood-feeding parasites and vectors of pathogens. The hard tick Ixodes ricinus is the most common species in the Czech Republic that transmits Lyme disease and tick-borne encephalitis. Proteases of the ticks are potential drug targets for the development of new vaccines against these parasites. This work is focused on biochemical analysis of a prolyl endopeptidase from I. ricinus, which has not been studied so far. The prolyl endopeptidase was identified in the extract from the tick gut tissue by the measurement of enzyme activity and by visualization on SDS-PAGE after labelling with activity-based probe. The tick prolyl endopeptidase is probably involved in the proteolytic digestion of host blood proteins based on the highest specific activity found in the gut tissue and its upregulation during the blood-feeding period. Biochemical analysis showed that the enzymatic activity of prolyl endopeptidase is (1) dependent on a free cysteine residue in a close proximity of the active site, (2) optimal at a pH range between 8 and 9, and (3) selectively inhibited by peptide inhibitors Z-Ala-Pro-CMK and Z-Pro-Pro-CHO. Key words: prolyl endopeptidase, proteolysis, enzyme activity, substrate specificity, tick (In Czech)
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