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DNA microextraction from plant vegetable matrix
Cesnak, Filip ; Španová, Alena (referee) ; Rittich, Bohuslav (advisor)
The aim of the thesis was the comparison of two DNA microextraction methods with the use of magnetic beads from food of plant origin. Samples had disparate and complex matrices and were either raw (broccoli) or processed (strawberry jam). The first method uses a magnetic separator for the manipulation of magnetic beads and was used as a standart for the comparison. The second method uses a paramagnetic needle, the advantage of which should be the possibility to isolate DNA of higher quality without a significant contamination by polyphenolic compounds or proteins. The former method was validated by statistic analysis of results obtained from both methods. DNA quality was judged by testing the amplificability of isolated DNA via PCR. The amplified products were visualised on an agarose gel with electrophoresis.
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DNA isolation using newly designed magnetic carriers
Machan, Radoslav ; Španová, Alena (referee) ; Rittich, Bohuslav (advisor)
Theoretical part of the master thesis was aimed on giving an overview of basic characteristics of magnetic particles, their morphology, basic methods of their synthesis, interaction with DNA and recent applications in biotechnology and biomedicine. The experimental part of thesis was aimed on application of new designed magnetic particles for isolation of both lactobacilli DNA and calf thymus DNA. Two types of magnetic beads were used: hyperbranched poly(glycidyl methacrylate-co-[2-(methacryloyloxy) ethoxy]acetic acid-co-ethylene dimethylacrylate) microbeads covered with amino groups (P(GMA-MOEAA-EDMA)-NH2) and magnetic non-porous poly(2-hydroxyethyl methacrylate) microbeads covered with carboxyl groups (P(HEMA-co-GMA)-COOH). For both types of microbeads two different protocols for preparation of separation mixtures with two different concentrations od poly(ethyleneglycol) 6000 (PEG 6000) as condensation agent were tested. Differences among both types of magnetic microbeads and DNAs used were found. It was shown that both types of microbeads are suitable for DNA isolation in the presence of 8% PEG 6000.
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DNA isolation using newly designed magnetic carriers
Machan, Radoslav ; Španová, Alena (referee) ; Rittich, Bohuslav (advisor)
Theoretical part of the master thesis was aimed on giving an overview of basic characteristics of magnetic particles, their morphology, basic methods of their synthesis, interaction with DNA and recent applications in biotechnology and biomedicine. The experimental part of thesis was aimed on application of new designed magnetic particles for isolation of both lactobacilli DNA and calf thymus DNA. Two types of magnetic beads were used: hyperbranched poly(glycidyl methacrylate-co-[2-(methacryloyloxy) ethoxy]acetic acid-co-ethylene dimethylacrylate) microbeads covered with amino groups (P(GMA-MOEAA-EDMA)-NH2) and magnetic non-porous poly(2-hydroxyethyl methacrylate) microbeads covered with carboxyl groups (P(HEMA-co-GMA)-COOH). For both types of microbeads two different protocols for preparation of separation mixtures with two different concentrations od poly(ethyleneglycol) 6000 (PEG 6000) as condensation agent were tested. Differences among both types of magnetic microbeads and DNAs used were found. It was shown that both types of microbeads are suitable for DNA isolation in the presence of 8% PEG 6000.
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DNA microextraction from plant vegetable matrix
Cesnak, Filip ; Španová, Alena (referee) ; Rittich, Bohuslav (advisor)
The aim of the thesis was the comparison of two DNA microextraction methods with the use of magnetic beads from food of plant origin. Samples had disparate and complex matrices and were either raw (broccoli) or processed (strawberry jam). The first method uses a magnetic separator for the manipulation of magnetic beads and was used as a standart for the comparison. The second method uses a paramagnetic needle, the advantage of which should be the possibility to isolate DNA of higher quality without a significant contamination by polyphenolic compounds or proteins. The former method was validated by statistic analysis of results obtained from both methods. DNA quality was judged by testing the amplificability of isolated DNA via PCR. The amplified products were visualised on an agarose gel with electrophoresis.
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Magnetic Beads-Based Electrochemical Techniques for DNA-Protein Interaction Monitoring
Fojta, Miroslav ; Pivoňková, Hana ; Němcová, Kateřina ; Horáková Brázdilová, Petra ; Havran, Luděk ; Orság, Petr ; Vidláková, Pavlína ; Macíčková-Cahová, Hana ; Balintová, Jana ; Hocek, Michal
Electrochemical techniques, in connection with separation of nucleoprotein complexes at magnetic beads, are suitable for the monitoring of DNA-protein interactions. For the detection of complexes captured at the beads it is possible to utilize intrinsic electrochemical activity of the protein, intrinsic structure-selective signals of the DNA, or indicator DNA substrates tail-labeled with electroactive moieties.
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Biosensors for Environmental Monitoring and Biomedical Applications
ŠTOFIK, Marcel
Study of biosensors has become an essential part of research in biotechnology. Biosensors as fast, portable, highly sensitive, and low-cost bioanalytical detection devices have been utilized in many fields of human activity. The first part of the presented work focuses on electrochemical biosensors for rapid environmental screening of herbicides as water pollutants. A sol-gel immobilization method for a photosystem II (PSII) complex is studied in order to enhance the sensitivity and the signal strength and stability of a PSII-based biosensor. Computer simulations of a PSII biosensor are employed with the aim to find out how the immobilization membrane properties influence the biosensor parameters. Newly developed immobilization by a thin-layer membrane based on the results of computer simulations and revised measurement protocols are presented. The second part of the work is devoted to synthesis and electrochemical detection of newly developed metal labels for electrochemical immunosensors. The synthesis of dendrimer-encapsulated silver nanoparticles and biorecognition properties of biotin-nanocomposite conjugates are discussed. For detection of synthesized labels, a microfluidic detector was manufactured and tested and different approaches to packing of a microfluidic chip employing polydimethylsiloxane (PDMS) were investigated. Newly designed microstructures for a microfluidic separator of magnetic beads (MBs) were studied by computer simulations. The separator was made and trapping of MBs for the further employment in MBs-based immunoassays are presented
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