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Mutant p53 protein and its binding and transactivation properties
Vojsovič, Matúš ; Němcová, Andrea (oponent) ; Brázda, Václav (vedoucí práce)
The "genome guardian" protein p53 plays an important role in cancer growth. P53 mutations occur in more than 50 % of human cancers. Mutated proteins significantly affect the proper functioning of cells. Due to the mutation, proteins can gain, but also lose, some of their functions, which also help them in modulating cell metabolism. Mutant forms of p53 may be involved in indirect binding or direct binding to DNA. They appeared to have a lower binding activity to the DNA than non-mutated p53. The experimental part of the thesis focuses on measuring the binding properties of selected p53 mutants using gel retardation analysis and using an atomic force microscope and monitoring the transactivation potential. The results were compared with the wild-type form of p53. It has been found that binding to the most common types of local DNA structures reduces the binding activity of p53 mutants over the wild-type. P53 mutants has been shown to have a lower intensity of transactivation than the wild-type p53 by studying their transactivation abilities and also they are able to reduce the intensity of transactivation when co-expressed with p53.
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Analysis of C. necator genome changes after evolutionary adaptation
Vojsovič, Matúš ; Šedrlová, Zuzana (oponent) ; Brázda, Václav (vedoucí práce)
The p53 protein is a transcription factor that belongs to the group of the tumour suppressor proteins. p53 functions include cell cycle regulation, interaction with DNA, and responses to damaged DNA that may lead to apoptosis or even senescence may occur. The theoretical part summarizes the latest information about the chemical structure and functions of the protein p53 and allosteric modifications that the p53 protein may possess in cells. It also describes selected methods of isolation and characterizes proteins. The aim of the experimental part was to isolate and characterize -isoforms of the p53 protein, which were isolated from the microorganism E.coli. Protein production was preceded by preparation and transformation of plasmids into production cells. From the production cells, 4 -isoforms of p53 were isolated by affinity chromatography, due to the polyhistidine anchor that the proteins contain. The isolated proteins were subsequently characterized by SDS-PAGE and western blotting. Moreover, the transactivation potential in the yeast system was monitored by luciferase assay under conditions involving the use of various culture media, as well as expressed or coexpressed under the inducible GAL1 promoter and the constitutive GPD promoter.
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Mutant p53 protein and its binding and transactivation properties
Vojsovič, Matúš ; Němcová, Andrea (oponent) ; Brázda, Václav (vedoucí práce)
The "genome guardian" protein p53 plays an important role in cancer growth. P53 mutations occur in more than 50 % of human cancers. Mutated proteins significantly affect the proper functioning of cells. Due to the mutation, proteins can gain, but also lose, some of their functions, which also help them in modulating cell metabolism. Mutant forms of p53 may be involved in indirect binding or direct binding to DNA. They appeared to have a lower binding activity to the DNA than non-mutated p53. The experimental part of the thesis focuses on measuring the binding properties of selected p53 mutants using gel retardation analysis and using an atomic force microscope and monitoring the transactivation potential. The results were compared with the wild-type form of p53. It has been found that binding to the most common types of local DNA structures reduces the binding activity of p53 mutants over the wild-type. P53 mutants has been shown to have a lower intensity of transactivation than the wild-type p53 by studying their transactivation abilities and also they are able to reduce the intensity of transactivation when co-expressed with p53.
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Analysis of C. necator genome changes after evolutionary adaptation
Vojsovič, Matúš ; Šedrlová, Zuzana (oponent) ; Brázda, Václav (vedoucí práce)
The p53 protein is a transcription factor that belongs to the group of the tumour suppressor proteins. p53 functions include cell cycle regulation, interaction with DNA, and responses to damaged DNA that may lead to apoptosis or even senescence may occur. The theoretical part summarizes the latest information about the chemical structure and functions of the protein p53 and allosteric modifications that the p53 protein may possess in cells. It also describes selected methods of isolation and characterizes proteins. The aim of the experimental part was to isolate and characterize -isoforms of the p53 protein, which were isolated from the microorganism E.coli. Protein production was preceded by preparation and transformation of plasmids into production cells. From the production cells, 4 -isoforms of p53 were isolated by affinity chromatography, due to the polyhistidine anchor that the proteins contain. The isolated proteins were subsequently characterized by SDS-PAGE and western blotting. Moreover, the transactivation potential in the yeast system was monitored by luciferase assay under conditions involving the use of various culture media, as well as expressed or coexpressed under the inducible GAL1 promoter and the constitutive GPD promoter.
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