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The interactions of hyaluronan and DNA
Sklenářová, Renáta ; Krouská, Jitka (referee) ; Hurčíková, Andrea (advisor)
This diploma thesis deals with the study of possible interactions between hyaluronan (HA) and plasmid DNA (pDNA). Plasmid DNA was isolated from E. coli JM109 (pUC19) and resuspended in TE buffer as well as high molecular weight hyaluronan. Individual samples of pDNA, HA and pDNA-HA were characterized by gel electrophoresis, CD spectroscopy and high resolution ultrasonic spectroscopy. Agarose gel electrophoresis examined the effect of the addition of hyaluronan to plasmid DNA on the migration of samples to the positive electrode. Structural changes in pDNA-HA samples were examined using CD spectroscopy. Individual CD spectra describes the dependence of the difference in absorption coefficients for left-hand and right-handed elliptic polarized light at wavelength. High resolution ultrasonic spectroscopy has been used to study interactions. It is an analytical method based on ultrasonic velocity and attenuation. We classify this technique as a non-destructive method because the passing waves do not affect the structure of the analyzed sample.
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Interaction of selected natural substances used in food industry with DNA and its structural motifs
Gardošová, Zuzana ; Pernicová, Iva (referee) ; Brázda, Václav (advisor)
G-quadruplexes represent secondary DNA structures formed in guanine-rich nucleic acid regions. These structures are involved in many biological processes, including DNA replication, transcription, and telomere maintenance. Several natural substances interacting with G-quadruplex structures have been described. Many of them can be used in the treatment of cancer or other areas of therapeutic practice. G-quadruplexes are dynamic structures whose stability can be affected by a variety of different factors, including chemical modifications to DNA. One of these modifications is DNA methylation, which is an important epigenetic mechanism regulating gene expression. DNA methylation can affect the function and stability of G-quadruplex structures. The theoretical part of the present work focuses on DNA secondary structures, characterization of G-quadruplexes and their ligands and describes the relationship between DNA methylation and G-quadruplex structures. In the experimental part, the binding ability of the natural substances quercetin, berberine, piperine, and caffeine to G-quadruplex structures formed in telomeric oligonucleotide sequences and sequences derived from the proto- oncogene c-Myc was confirmed. Furthermore, the ability of berberine and quercetin was proven to stabilize G-quadruplexes in the aforementioned sequences. Bioinformatics analysis showed that the frequency of G4 is higher in CpG regions than in their surroundings, and the highest frequency of G4 within CpG regions was observed on chromosome 19. Global methylation assays demonstrated that the breast cancer cell line exhibited hypomethylation compared to the non-tumor human dermal fibroblast cell line. After treatment with berberine, the analyzed DNA of both cell lines showed hypermethylation, whereas DNA after interaction with quercetin showed hypomethylation.
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Study of the role of the B-chain N-terminus conformation of insulin in binding to the insulin receptor
Kosinová, Lucie ; Žáková, Lenka (advisor) ; Obšil, Tomáš (referee)
According to the International Diabetes Federation (IDF), there were 371 million people in the age from 20 to 79 years worldwide affected by diabetes in 2012. This means diabetes has become a global epidemic disease and, therefore, the importace of insulin research still grows. Insulin is a protein hormone that plays a key role in regulating blood glucose level which has a widespread impact on whole metabolism. Insulin acts through binding of its monomeric form to the insulin receptor. It is clear that insulin monomer has to undergo structural changes upon binding to the insulin receptor as the residues which are crucial for the interaction are burried within the native form. According to studies of highly active hormone analogs and the new information about the insulin-insulin receptor complex, there is a strong evidence that the C-terminal part of the B-chain is a dynamic element in insulin activation and receptor binding. Probably, there is also a great importance of the B-chain N- terminus and the transition between T and R conformations of insulin. However, the exact significance of the T and R states of insulin still remains unclear. In this work, several new insulin analogs AibB3-insulin, AibB5-insulin, AibB8- insulin, N-MeAlaB8-insulin and D-ProB8-insulin were prepared for the purpose of...
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Biophysical studies of membrane transport proteins from Nramp/MntH family and their function
Ňuňuková, Věra
Three synthetic peptides corresponding to transmembrane segments TMS1, TMS3 and TMS6 of secondary-active transporter MntH from Escherichia coli were used as a suitable alternative model enabling to study TMS structure, TMS interaction with membranes, TMS mutual interaction and also function of MntH. The secondary structure of the peptides was estimated in different environments using circular dichroism spectroscopy. These peptides interacted with and adopted helical conformation in lipid membranes. Electrophysiological experiments demonstrated that individual TMS were able under certain conditions to form ion channels in model biological membranes. Electrophysiological properties of these weakly cation-selective ion channels were strongly dependent on surrounding pH. Manganese ion, as a physiological substrate of MntH, enhanced the conductivity of TMS1 and TMS6 channels, influenced the transition between closed and open states and affected the conformation of all studied peptides. For TMS3 Mn2+ was crucial for formation of ion channels. It was shown that a single functionally important TMS can retain some of the functional properties of the full-length protein. These findings can contribute to understanding of structure-function relationship at the molecular level. However, it remains unclear to...
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Effect of amino acid alphabet reduction on structure and function of dephosphocoenzyme A kinase
Makarov, Mikhail ; Hlouchová, Klára (advisor) ; Dračínská, Helena (referee)
It is well-known that the large diversity of protein functions and structures derives from the broad spectrum of physicochemical properties of the 20 canonical amino acids that constitute modern proteins. According to the generally accepted coevolution theory of the genetic code, evolution of protein structures and functions was continuously associated with enrichment of the genetic code, with aromatic amino acids being considered the latest addition to the genetic code to increase structural stability of proteins and diversification of their catalytic functions. The main objective of this master thesis was to test whether enzymatic catalysis could precede the appearance of aromatic amino acids in the standard genetic code. For that purpose, the effect of amino acid alphabet reduction on structure and function of dephosphocoenzyme A kinase (DPCK) was studied. Dephosphocoenzyme A kinase catalyses the final step in the biosynthesis of coenzyme A, a very conserved cofactor. Two aromatic amino acid-lacking mutants of DPCK from a thermophilic bacterium, Aquifex aeolicus, were designed by substituting aromatic amino acid residues by (i) leucines and (ii) various non-aromatic amino acids to best preserve the structural stability of the protein. Wild type protein and the two mutants were cloned and...
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Study of the role of the B-chain N-terminus conformation of insulin in binding to the insulin receptor
Kosinová, Lucie ; Žáková, Lenka (advisor) ; Obšil, Tomáš (referee)
According to the International Diabetes Federation (IDF), there were 371 million people in the age from 20 to 79 years worldwide affected by diabetes in 2012. This means diabetes has become a global epidemic disease and, therefore, the importace of insulin research still grows. Insulin is a protein hormone that plays a key role in regulating blood glucose level which has a widespread impact on whole metabolism. Insulin acts through binding of its monomeric form to the insulin receptor. It is clear that insulin monomer has to undergo structural changes upon binding to the insulin receptor as the residues which are crucial for the interaction are burried within the native form. According to studies of highly active hormone analogs and the new information about the insulin-insulin receptor complex, there is a strong evidence that the C-terminal part of the B-chain is a dynamic element in insulin activation and receptor binding. Probably, there is also a great importance of the B-chain N- terminus and the transition between T and R conformations of insulin. However, the exact significance of the T and R states of insulin still remains unclear. In this work, several new insulin analogs AibB3-insulin, AibB5-insulin, AibB8- insulin, N-MeAlaB8-insulin and D-ProB8-insulin were prepared for the purpose of...
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Biophysical studies of membrane transport proteins from Nramp/MntH family and their function
Ňuňuková, Věra
Three synthetic peptides corresponding to transmembrane segments TMS1, TMS3 and TMS6 of secondary-active transporter MntH from Escherichia coli were used as a suitable alternative model enabling to study TMS structure, TMS interaction with membranes, TMS mutual interaction and also function of MntH. The secondary structure of the peptides was estimated in different environments using circular dichroism spectroscopy. These peptides interacted with and adopted helical conformation in lipid membranes. Electrophysiological experiments demonstrated that individual TMS were able under certain conditions to form ion channels in model biological membranes. Electrophysiological properties of these weakly cation-selective ion channels were strongly dependent on surrounding pH. Manganese ion, as a physiological substrate of MntH, enhanced the conductivity of TMS1 and TMS6 channels, influenced the transition between closed and open states and affected the conformation of all studied peptides. For TMS3 Mn2+ was crucial for formation of ion channels. It was shown that a single functionally important TMS can retain some of the functional properties of the full-length protein. These findings can contribute to understanding of structure-function relationship at the molecular level. However, it remains unclear to...
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The interactions of hyaluronan and DNA
Sklenářová, Renáta ; Krouská, Jitka (referee) ; Hurčíková, Andrea (advisor)
This diploma thesis deals with the study of possible interactions between hyaluronan (HA) and plasmid DNA (pDNA). Plasmid DNA was isolated from E. coli JM109 (pUC19) and resuspended in TE buffer as well as high molecular weight hyaluronan. Individual samples of pDNA, HA and pDNA-HA were characterized by gel electrophoresis, CD spectroscopy and high resolution ultrasonic spectroscopy. Agarose gel electrophoresis examined the effect of the addition of hyaluronan to plasmid DNA on the migration of samples to the positive electrode. Structural changes in pDNA-HA samples were examined using CD spectroscopy. Individual CD spectra describes the dependence of the difference in absorption coefficients for left-hand and right-handed elliptic polarized light at wavelength. High resolution ultrasonic spectroscopy has been used to study interactions. It is an analytical method based on ultrasonic velocity and attenuation. We classify this technique as a non-destructive method because the passing waves do not affect the structure of the analyzed sample.
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