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Biofyzikální studium malých RNA
Šmerková, Kristýna
Thanks to the prove of connection between the aberrant occurrence of small RNA and various diseases and their potential in diagnostics and treatment led to discovery of new methods and materials facilitating their detection and targeted transport during gene therapy. This work summarizes present knowledge about chosen groups of small RNA, their significance in medical science and the possibilities of their detection. This work primarily concentrates on combination of magnetic separation with electrochemical detection. Magnetic particles (MPs) with different surface modifications were used for isolation. Non-specific isolation was carried out using silanol-coated MPs; streptavidin-coated MPs modified with specific biotinylated probe were used for specific separation. Square wave voltammetry (SWV) was used as a very sensitive electrochemical detection method. Optimized method based on specific magnetic separation with SWV was able to reach nanomolar detection limit (4 nM) with microRNA. The method was applied on human embryonic cells for specific isolation and detection of miR-124. The CdTe quantum dots (QDs) were studied as a nanomaterial tool for nucleic acid detection. The QDs were modified with streptavidin for their bioconjugation with biotinylated molecules were used. Interaction of QDs with nucleic acids was studied using capillary electrophoresis.
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Automated preparation of anti-COVID magnetic immunosorbent
Křížová, Lucie ; Svobodová, Zuzana (advisor) ; Smělá, Denisa (referee)
The target of the diploma thesis is the automation of the manual preparation of anti-COVID-19 magnetic immunosorbent. The theoretical part of the work is focused on the research processing of information about the SARS-CoV-2 virus causing the disease COVID-19. The basic characteristics of the disease, its causative agent, clinical picture, methods for detecting the SARS-CoV-2 virus in the human body, and treatment are described here. Furthermore, the principle of the LIS method is described here and the methods of its use in other areas of analysis are described here. The experimental part describes how the manually demanding batch method for antibody immobilization on magnetic particles was converted to an automated method in the Lab-In-Syringe (LIS) system. To convert the batch method to LIS, a series of experiments, optimizations, and searches for analogies were carried out to fully automate the method with minimal operator involvement. Using the device, we prepared anti-COVID-19 immunosorbents, which were subsequently tested using the PCR method on patient samples in the laboratory of the University of Pardubice with BSL 3 protection Keywords: COVID-19, SARS-CoV-2, magnetic particles, Lab-In-Syringe, LIS
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Automated preparation of anti-COVID magnetic immunosorbent
Křížová, Lucie ; Svobodová, Zuzana (advisor) ; Smělá, Denisa (referee)
The target of the diploma thesis is the automation of the manual preparation of anti-COVID-19 magnetic immunosorbent. The theoretical part of the work is focused on the research processing of information about the SARS-CoV-2 virus causing the disease COVID-19. The basic characteristics of the disease, its causative agent, clinical picture, methods for detecting the SARS-CoV-2 virus in the human body, and treatment are described here. Furthermore, the principle of the LIS method is described here and the methods of its use in other areas of analysis are described here. The experimental part describes how the manually demanding batch method for antibody immobilization on magnetic particles was converted to an automated method in the Lab-In-Syringe (LIS) system. To convert the batch method to LIS, a series of experiments, optimizations, and searches for analogies were carried out to fully automate the method with minimal operator involvement. Using the device, we prepared anti-COVID-19 immunosorbents, which were subsequently tested using the PCR method on patient samples in the laboratory of the University of Pardubice with BSL 3 protection Keywords: COVID-19, SARS-CoV-2, magnetic particles, Lab-In-Syringe, LIS
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Tau protein, a biomarker of Alzheimer's disease: in vitro phosphorylation and tau-reactive antibodies characterization
Hromádková, Lenka ; Bílková, Zuzana (advisor) ; Fialová, Lenka (referee) ; Krejsek, Jan (referee)
Tau protein, a microtubule-associated protein localized in axonal projections of neurons, is a key molecule in the pathology of Alzheimer's disease (AD), the most common cause of dementia in the elderly population. Tau belongs to the group of natively unfolded proteins without globular structure and is prone to numerous posttranslational modifications (PTMs). Under pathological conditions, abnormal PTMs and misfolding of tau protein occurs and leads to oligomerization and aggregation into paired helical filaments forming neurofibrillary tangles, the histopathological hallmark of AD. Currently available drugs applied in AD treatment can only slow the disease progression and those, which halt the AD-specific neurodegenerative processes, are still missing. Very promising and evolving therapeutic approach is immunotherapy, and even immunomodulation by administration of intravenous immunoglobulin (IVIG) products, a reservoir of natural antibodies from the plasma of healthy donors, has been already tested. The discovery of naturally occurring antibodies directed to tau (nTau-Abs) in body fluids of both AD and healthy subjects and their presence in IVIG begin the investigation of their therapeutic potential. Considering a wide range of possible modifications of tau and of various tau species (oligomers,...
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Immobilization of protease V8 on magnetic particles for application to proteolytic cleavage of pepsin A
Čepa, Adam ; Pacáková, Věra (advisor) ; Tichá, Marie (referee)
This thesis is part of a long-standing research in the field of diagnosis of the stomach diseases, which is based on the gastric enzyme pepsin A mapping. It was found that a phosphorylation in the primary structure of this enzyme may serve as a marker of incipient stage of carcinogenesis. This thesis is focused on the immobilization of protease V8 isolated from microorganism Stafylococcus aureus to magnetic agarose beads. Protease V8 is a promising candidate for producing peptide maps of pepsin A. The influence of pH, temperature and reaction time on the enzyme to activity has been studied and the optimal conditions for hydrolytic catalysis of formation of peptide fragments of pepsin A.
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Peptide inhibitors immobilized on magnetic particles and Sepharose used for separation of stomach aspartate proteinases
Rajčanová, Michaela ; Kučerová, Zdenka (advisor) ; Fusek, Martin (referee) ; Pacáková, Věra (referee)
IN ENGLISH Human gastric juice contains mainly aspartate proteinases: pepsin A and pepsin C. Both pepsins are produced by gastric mucosa as inactive pepsinogens and they are activated to the corresponding pepsins in the acidic environment of the gastric lumen. The levels of pepsinogens in serum reflect the morphological and functional status of gastric mucosa. A subject of this thesis is a part of a long-term investigation that focuses on the elaboration of methods for separation gastric aspartate proteainases that would be suitable for diagnostic purposes. The preparation of new type ligands was a concrete subject of PhD. thesis that after their immobilization they can enable the separation of aspartate proteinases. Four heptapeptides containing D-leucinyl residue were synthetized (Val-D-Leu-Pro-Phe-Phe-Val- D-Leu, Val-D-Leu-Pro-Tyr-Phe-Val-D-Leu, Val-D-Leu-Pro-Tyr-Tyr-Val-D-Leu and Val-D- Leu-Pro-Phe-Tyr-Val-D-Leu. The prepared heptapeptides immobilized on agarose magnetic particles were used for the study of their interaction with porcine pepsin A and rat pepsin C. While porcine pepsin A was adsorbed to all heptapeptides immobilized to magnetic particles, rat pepsin C was not retarded. Similar results were obtained using heptapeptides immobilized to Sepharose. The situation was more complicated...
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Detekce patogenů pomocí molekulárně imprintovaných polymerů
Hutařová, Jitka
The theoretical part of this diploma thesis deals with molecularly imprinted polymers. Properties of the monomers and templates used for the polymerization are described. Part is devoted to the preparation of molecularly imprinted polymers and interactions leading to the formation of imprinted polymers. Imprinting technologies and strategies, template removal methods, detection methods, and the advantages and disadvantages of the molecular imprinting are included. Also the applications in various fields, focusing mainly on the area of imprinting proteins and pathogens are discussed in details. The experimental part deals with optimization of the preparation of a molecularly imprinted polymer based on dopamine subsequently used especially for the isolation and detection of Staphylococcus aureus and Enterococcus faecalis. The polymer was coated over a microscope slide, into the 96-well microplate and on a surface of magnetic particles. Fluorescence spectrometry and fluorescence microscopy were used for analyte detection. The developed technique was capable of isolating the target (Staphylococcus aureus and Enterococcus faecalis) at relatively low concentrations (1.103 CFU.ml-1).
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Use of Molecular Biology Techniques for Identification and Analysis of Probiotic Bacteria
Konečná, Jana ; Doškař, Jiří (referee) ; Kráčmar, Stanislav (referee) ; Obruča, Stanislav (advisor)
Isolation of deoxyribonucleic acid (DNA) is an important step in the molecular diagnostics of microorganisms. A high quality of isolated DNA is necessary for DNA amplification by the polymerase chain reaction (PCR). The conventional DNA isolation using phenol-chloroform extraction and DNA precipitation in ethanol is time-consuming and requires the use of toxic phenol. Alternative method of DNA isolation is use of commercially available kits which, however, are expensive and their efficiency is low. Magnetic separation techniques using magnetic solid particles are one of modern methods to speed up the nucleic acids isolation. The aim of this work was to use two different types of magnetic particles for solid-phase DNA extraction. Magnetic microparticles P(HEMA – co – GMA) containing –NH2 group and nanoparticles PLL, whitch contains polylysine. The amounts of DNA in separation mixtures were measured using ultraviolet spectrophotometry (UV). The first experimental conditions were tested on chicken erythrocytes DNA. Phosphate buffer (pH 7, 7.6 and 8) was used for adsorption of DNA on magnetic particles. It was shown that approximately almost one half of DNA was adsorbed on the particles. The elution conditions of DNA were also optimized. Secondly, bacterial DNA was tested. After optimalization, the developed method was used for DNA isolation from real food supplements. This DNA eluted from the particles was in PCR ready quality. High resolution melting (HRM) curve analysis is a simple, low-cost method for amplicon discrimination and easy connection with real-time polymerase chain reaction (PCR). In this thesis, we report rapid species identification of strains belonging to the Lactobacillus group using HRM-PCR. Three different DNA isolation methods were used in this work: phenol extraction, separation using magnetic particles and commercial kit. Ten sets of targeted gene fragments primers (LAC1 – LAC2, LAC2 – LAC4, P1V1 – P2V1, Gro F – Gro R, 3BA-338f – Primer 1, V1F – V1R, CHAU - V3F – CHAU - V3R, CHAU - V6F – CHAU - V6R, poxcDNAFw – poxPromRVC, poxcDNAFw – poxPromRVT) were tested for amplification of the 16S rRNA gene. Use of GroF/R and LAC2/4 primers pairs successfully identify strains belong to the Lactobacillus group. The variance between used extraction methods for evidence of HRM curves was found.
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PROBIOTIC GENES OF SIGNIFICANT LACTIC ACID BACTERIA IN FOOD
Konečná, Jana ; Ševčovičová,, Andrea (referee) ; Doškař, Jiří (referee) ; Španová, Alena (advisor)
Isolation of deoxyribonucleic acid (DNA) is an important step in the molecular diagnostics of microorganisms. A high quality of isolated DNA is necessary for DNA amplification by the polymerase chain reaction (PCR). The conventional DNA isolation using phenol chloroform extraction and DNA precipitation in ethanol is time consuming and requires the use of toxic phenol. Magnetic separation techniques using magnetic solid particles are one of modern methods to speed up the nucleic acids isolation. The aim of this work was to use two different types of magnetic particles for solidphase DNA extraction. The amounts of DNA in separation mixtures were measured using ultraviolet spectrophotometry (UV). The first experimental conditions were tested on chicken erythrocytes DNA. Phosphate buffer (pH 7, 7.6 and 8) was used for adsorption of DNA on magnetic particles. It was shown that approximately almost one half of DNA was adsorbed to the particles. The elution conditions of DNA were also optimized. Secondly, bacterial DNA was tested. This DNA eluted from the particles was in PCR ready quality. High resolution melting (HRM) curve analysis is a simple, low-cost method for amplicon discrimination and easy connection with real-time polymerase chain reaction (PCR). In this contribution, we report rapid species identification of strains belonging to the Lactobacillus group using HRM-PCR. Three different DNA isolation methods were used in this work: phenol extraction, separation using magnetic particles and commercial kit. Ten sets of targeted gene fragments primers (LAC1 – LAC2, LAC2 – LAC4, P1V1 – P2V1, Gro F – Gro R, 3BA-338f – Primer 1, V1F – V1R, CHAU - V3F – CHAU - V3R, CHAU - V6F – CHAU - V6R, poxcDNAFw – poxPromRVC, poxcDNAFw – poxPromRVT) were tested for amplification of the 16S rRNA gene. Use of GroF/R and LAC2/4 primers pairs successfully identify strains belong to the Lactobacillus group. The variance between used extraction methods for evidence of HRM curves was found.
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