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(Construction of deletion mutants of human cytochrome b5 using gene synthesis)
Kotlánová, Iveta ; Martínek, Václav (advisor) ; Moserová, Michaela (referee)
Cytochrome b5 is a small amphipathic protein. The human form is anchored to the outer membrane of the endoplasmic reticulum and mitochondria, a free form is located in red blood cells. It consists of two domains: a large hydrophilic domain binds heme, a small hydrophobic domain anchors cytochrome b5 to the microsomal membrane. Both domains are connected by linker chain of about 15 amino acids, which gives a flexibility to the protein. Its length plays an important role in transferring electrons to cytochrome P450. If the linker domain is too short, cytochrome b5 is not able to tranfer electrons to cytochrome P450 and not participates in the reactions of MFO system. Other functions are preserved. The aim of this study was to design and build 4 deletion mutants of cytochrome b5 using gene synthesis. The linker domain contains long and short deletions, which are expected to have distortion interaction with cytochrome P450. Part of this thesis was the expression of heterologous proteins by cells of Escherichia coli strain XL10-Gold and DH5α. As expression vectors for the transformation were used plasmids pET- 30a(+) and pET-22b. DNA from cells was isolated and the accuracy of the genetic code was verified using the sequencing. Keywords: cytochrome b5, heterologous expression, gene synthesis (In Czech)
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Heterologous expression of NADPH:cytochrome P450 reductase
Stráňava, Martin ; Černá, Věra (advisor) ; Martínek, Václav (referee)
NADPH:cytochrome P450 reductase (CPR) is a 78 kDa flavoprotein, which is together with cytochrome P450 component of monooxygenase system bound in the membrane of the endoplasmic reticulum. Monooxygenase system is involved in the metabolism of a wide range of organic substances, including drugs or various pollutants present in the environment (polycyclic aromatic hydrocarbons, aromatic amines, etc.). CPR works as a transporter of reducing equivalents from NADPH to the cytochromes P450. For proper interaction with cytochromes P450, intact N-terminal hydrophobic domain anchoring protein in the membrane is needed. Removing this domain, e.g. during trypsin proteolysis, gives rise a soluble CPR (72 kDa) and cause loss of catalytic activity towards cytochrome P450. During heterologous expression in E. coli proteolytically sensitive site of CPR (Lys56 - Ile57) is cleaved by intracellular trypsin-like proteases, that may negatively affect the yields of native 78 kDa protein. This thesis describes the heterologous expression, purification and characterization of two forms of rat CPR. WtCPR is a protein naturally occurring in rats (Wistar strain), while mCPR contains one amino acid substitution (K56Q) in the site of proteolytic degradation. The result of that substitution is proteolytically stable CPR,...
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Site-directed mutagenesis of human cytochromes P450 family 1 and their interacting partners
Milichovský, Jan
Cytochromes P450 represent a large group of proteins metabolizing variety of substrates. Many of them are responsible for metabolism of xenobiotics including drugs and chemical carcinogens. Heme-protein cytochrome b5 is a single-electron donor cooperating with a NADPH:cytochrome P450 reductase and NADH:cytochrome b5 reductase 3 enzyme. Cytochrome b5can affect the xenobiotic metabolism via modulation of the cytochromes P450 activity. One of the goals of the Ph.D. thesis was to utilize site directed mutagenesis of cytochromes P450 family 1 to elucidate the mechanism of their nitroreductase activity. Another aim was to study the interaction between cytochrome b5 and cytochromes P450 of the 1A subfamily using site directed mutagenesis on presumed protein-protein contact interface. Another goal was to utilize the combination of theoretical and experimental approaches to explain variance in the reduction state of several human cytochromes P450 heterologously expressed in intact bacterial cells. The results found in the thesis show that nitroreductase activity of CYP1A1, CYP1A2 and CYP1B1 is mediated by the presence of a particular hydroxyl group in their active centre. Single mutation introducing a hydroxyl group to the specific part of CYP1B1 active site to the active site turned on its artificial...
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The mechanism of action of anticancer drug ellipticin in target tissues of its effect
Mrízová, Iveta
Ellipticine is an alkaloid isolated from Apocynaceae plants exhibiting significant antitumor and anti-HIV activities. Cytochromes P450 (CYP) and peroxidases are the enzymes participating in metabolism of ellipticine. This process provides activation and detoxication metabolites of ellipticine. The CYP enzymes, which participate in oxidation of ellipticine in different tissues (liver, lung and kidney) of rat, a model organism simulating the fate of ellipticine in humans have already been identified. In this work, the effects of ellipticine on contents and catalytic activities of CYPs and other components of the mixed-function oxidase (MFO) system in this animal system were studied. For detection of contents of CYPs and other components of the MFO system, spectroscopic and electrochemical methods were used. To determine catalytic activities of CYPs and NADPH:cytochrome P450 reductase, reactions with specific substrates of these enzymes were utilized. The results found in this study demonstrate that expression and catalytic activity of CYP1A is induced by ellipticine in all of the tested organs (liver, kidney and lung) of rats treated with the drug. Moreover in liver, the cytochrome b5 expression is also induced. In addition, in this organ, expression and catalytic activity of CYP3A was increased by...
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Mutant glycosidases with a high substrate specificity and their analysis
Nekvasilová, Pavlína ; Bojarová, Pavla (advisor) ; Lichá, Irena (referee)
β-N-acetylhexosaminidases (EC 3.2.1.52, GH 20) are retaining exo-glycosidases that in vivo cleavage both β-N-acetylglucosamine (GlcNAc) or β-N-acetylgalactosamine (GalNAc) residues fom glycostructures. Under suitable reaction conditions, these enzymes are able to synthesize the glycosidic bond in good yields. Substitution of selected amino acid(s) in the emzyme active site by site-directed mutagenesis may change the enzyme's substrate specificity or suppress the hydrolytic activity of the enzyme in favor of synthesis. The present thesis deals with three mutant β-N-acetylhexosaminidases from Talaromyces flavus, in which the amino acid residues responsible for binding to C-4 hydroxyl of the substrate (Arg218, Glu546) were exchanged for amino acids proposed on the basis of molecular modeling. The effect of introduced single point mutations on substrate specificity of prepared enzymes was studied. Mutant β-N-acetylhexosaminidases were heterologously expressed in Pichia pastoris and characterized. Furthermore, transglycosylation reactions with these enzymes were performed. The prepared carbohydrate products were characterized by NMR.
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Site-directed mutagenesis of human cytochromes P450 family 1 and their interacting partners
Milichovský, Jan
Cytochromes P450 represent a large group of proteins metabolizing variety of substrates. Many of them are responsible for metabolism of xenobiotics including drugs and chemical carcinogens. Heme-protein cytochrome b5 is a single-electron donor cooperating with a NADPH:cytochrome P450 reductase and NADH:cytochrome b5 reductase 3 enzyme. Cytochrome b5can affect the xenobiotic metabolism via modulation of the cytochromes P450 activity. One of the goals of the Ph.D. thesis was to utilize site directed mutagenesis of cytochromes P450 family 1 to elucidate the mechanism of their nitroreductase activity. Another aim was to study the interaction between cytochrome b5 and cytochromes P450 of the 1A subfamily using site directed mutagenesis on presumed protein-protein contact interface. Another goal was to utilize the combination of theoretical and experimental approaches to explain variance in the reduction state of several human cytochromes P450 heterologously expressed in intact bacterial cells. The results found in the thesis show that nitroreductase activity of CYP1A1, CYP1A2 and CYP1B1 is mediated by the presence of a particular hydroxyl group in their active centre. Single mutation introducing a hydroxyl group to the specific part of CYP1B1 active site to the active site turned on its artificial...
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Site-directed mutagenesis of human cytochromes P450 family 1 and their interacting partners
Milichovský, Jan ; Martínek, Václav (advisor) ; Befekadu, Asfaw (referee) ; Souček, Pavel (referee)
Cytochromes P450 represent a large group of proteins metabolizing variety of substrates. Many of them are responsible for metabolism of xenobiotics including drugs and chemical carcinogens. Heme-protein cytochrome b5 is a single-electron donor cooperating with a NADPH:cytochrome P450 reductase and NADH:cytochrome b5 reductase 3 enzyme. Cytochrome b5 can affect the xenobiotic metabolism via modulation of the cytochromes P450 activity. One of the goals of the Ph.D. thesis was to utilize site directed mutagenesis of cytochromes P450 family 1 to elucidate the mechanism of their nitroreductase activity. Another aim was to study the interaction between cytochrome b5 and cytochromes P450 of the 1A subfamily using site directed mutagenesis on presumed protein-protein contact interface. Another goal was to utilize the combination of theoretical and experimental approaches to explain variance in the reduction state of several human cytochromes P450 heterologously expressed in intact bacterial cells. The results found in the thesis show that nitroreductase activity of CYP1A1, CYP1A2 and CYP1B1 is mediated by the presence of a particular hydroxyl group in their active centre. Single mutation introducing a hydroxyl group to the specific part of CYP1B1 active site to the active site turned on its artificial...
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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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(Construction of deletion mutants of human cytochrome b5 using gene synthesis)
Kotlánová, Iveta ; Martínek, Václav (advisor) ; Moserová, Michaela (referee)
Cytochrome b5 is a small amphipathic protein. The human form is anchored to the outer membrane of the endoplasmic reticulum and mitochondria, a free form is located in red blood cells. It consists of two domains: a large hydrophilic domain binds heme, a small hydrophobic domain anchors cytochrome b5 to the microsomal membrane. Both domains are connected by linker chain of about 15 amino acids, which gives a flexibility to the protein. Its length plays an important role in transferring electrons to cytochrome P450. If the linker domain is too short, cytochrome b5 is not able to tranfer electrons to cytochrome P450 and not participates in the reactions of MFO system. Other functions are preserved. The aim of this study was to design and build 4 deletion mutants of cytochrome b5 using gene synthesis. The linker domain contains long and short deletions, which are expected to have distortion interaction with cytochrome P450. Part of this thesis was the expression of heterologous proteins by cells of Escherichia coli strain XL10-Gold and DH5α. As expression vectors for the transformation were used plasmids pET- 30a(+) and pET-22b. DNA from cells was isolated and the accuracy of the genetic code was verified using the sequencing. Keywords: cytochrome b5, heterologous expression, gene synthesis (In Czech)
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The mechanism of action of anticancer drug ellipticin in target tissues of its effect
Mrízová, Iveta
Ellipticine is an alkaloid isolated from Apocynaceae plants exhibiting significant antitumor and anti-HIV activities. Cytochromes P450 (CYP) and peroxidases are the enzymes participating in metabolism of ellipticine. This process provides activation and detoxication metabolites of ellipticine. The CYP enzymes, which participate in oxidation of ellipticine in different tissues (liver, lung and kidney) of rat, a model organism simulating the fate of ellipticine in humans have already been identified. In this work, the effects of ellipticine on contents and catalytic activities of CYPs and other components of the mixed-function oxidase (MFO) system in this animal system were studied. For detection of contents of CYPs and other components of the MFO system, spectroscopic and electrochemical methods were used. To determine catalytic activities of CYPs and NADPH:cytochrome P450 reductase, reactions with specific substrates of these enzymes were utilized. The results found in this study demonstrate that expression and catalytic activity of CYP1A is induced by ellipticine in all of the tested organs (liver, kidney and lung) of rats treated with the drug. Moreover in liver, the cytochrome b5 expression is also induced. In addition, in this organ, expression and catalytic activity of CYP3A was increased by...
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