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Smart charger with cell identification
Podaný, Matěj ; Povalač, Aleš (referee) ; Kubíček, Michal (advisor)
This thesis is looking for a suitable method of unambiguous identification of charging cells, so that it can monitor their capacity in the long term and eliminate defective cells. It proposes several such methods where only the most suitable one is selected for the subsequent demonstration. It describes the basic properties of rechargeable cells and selects the one that could be used to demonstrate the selected method of cell identification. It designs an intelligent battery charger which demonstrates the chosen method of identification on modified charging cells.
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Smart charger with cell identification
Podaný, Matěj ; Povalač, Aleš (referee) ; Kubíček, Michal (advisor)
This thesis is looking for a suitable method of unambiguous identification of charging cells, so that it can monitor their capacity in the long term and eliminate defective cells. It proposes several such methods where only the most suitable one is selected for the subsequent demonstration. It describes the basic properties of rechargeable cells and selects the one that could be used to demonstrate the selected method of cell identification. It designs an intelligent battery charger which demonstrates the chosen method of identification on modified charging cells.
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FISH method and its use in protistology
Frenclová, Martina ; Hampl, Vladimír (advisor) ; Zubáčová, Zuzana (referee)
Fluorescence in situ hybridization (FISH) is a technique that allows the localization and identification of specific sequences of nucleotides in DNA or RNA, which is subsequently visible under the microscope. FISH involves first denaturing the nucleic acids, either using high temperatures or by treatment with denaturing agents such as formamide.After subsequent induction of reasociation, the examined DNA or RNA pairs according to the complementarity rules with the short molecule called the probe, this process is called hybridization. Hybridization occurs in situ, that is within the examined specimen. Probes can be labeled either directly using fluorophores, or indirectly with a hapten, which is a substance having antigenic properties, which is subsequently detected using labeled antibodies or streptavidine. FISH has a large number of applications in molecular biology and medical science. In laboratory research in protistolgii FISH can be used for example to map the chromosomal genes to study the evolution of genome, analysis of nuclear organization or to confirmation of the origin of DNA sequence. Key words: FISH, fluorescence, probe, cell identification, environmental studies
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FISH method and its use in protistology
Frenclová, Martina ; Hampl, Vladimír (advisor) ; Zubáčová, Zuzana (referee)
Fluorescence in situ hybridization (FISH) is a technique that allows the localization and identification of specific sequences of nucleotides in DNA or RNA, which is subsequently visible under the microscope. FISH involves first denaturing the nucleic acids, either using high temperatures or by treatment with denaturing agents such as formamide.After subsequent induction of reasociation, the examined DNA or RNA pairs according to the complementarity rules with the short molecule called the probe, this process is called hybridization. Hybridization occurs in situ, that is within the examined specimen. Probes can be labeled either directly using fluorophores, or indirectly with a hapten, which is a substance having antigenic properties, which is subsequently detected using labeled antibodies or streptavidine. FISH has a large number of applications in molecular biology and medical science. In laboratory research in protistolgii FISH can be used for example to map the chromosomal genes to study the evolution of genome, analysis of nuclear organization or to confirmation of the origin of DNA sequence. Key words: FISH, fluorescence, probe, cell identification, environmental studies
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