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Selective isolation of the genus Bifidobacterium bacteria from foods
Mizerovská, Lucie ; Šárka, Havlíková (referee) ; Rittich, Bohuslav (advisor)
Probiotic lactic acid bacteria (LAB) are very often used in food procesing industry, such as milk products, cheese and fermentsd salami production in nova days. In diploma thesis were tested symbiotic food supplements from different producers. Bacterial DNA was isolated from crude cell lysates of six food suplements by magnetic particles P(HEMA-co-GMA). PCR-ready DNAs were isolated. from all products The detection of Bifidobacterium bacteria identified by PCR was in agreement with those declared by the manufacturers. Magnetic particles with immobilized antibodies against Bifidobacterium were used in the next part of thesis. These particles were used for the isolation of target cells from two products with cell identification by genus specific PCR.
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Selective isolation of of the genus Lactobacillus bacteria from foods
Novotná, Eva ; Šárka, Havlíková (referee) ; Rittich, Bohuslav (advisor)
Probiotic lactic acid bacteria of genus Lactobacillus play an important role in the digestive tract of human. They are used in food processing and they are the part of food supplements. Lactic acid bacteria of the genus Lactobacillus can be identificated by polymerase chain reaction (PCR). Bacterial DNA was isolated from cell lysates of 4 synbiotic food suplements by magnetic particles P(HEMA-co-GMA). Isolated DNA was amplified by genus-specific and species-specific primers. Magnetic particles with immobilized antibodies against Lactobacillus bacteria were used in the next part of thesis. These particles were used for isolation target cells from products with their identification by genus specific PCR.
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Imunomagnetic separation of lactic acid bacteria using magnetic microparticles functionalised by antibodies
Vaňásek, Jakub ; Španová, Alena (referee) ; Trachtová, Štěpánka (advisor)
Immunomagnetic separation is based on binding of antibody with antigen, where antibody is bound to magnetic particle. In this thesis there were used particles of magnetic pearl cellulose with antiLactobacillus and antiBifidobacterium antibodies. Immunomagnetic separation method was optimalized and verified for its efficiency and specifity with bacterial and yeast cells. This cells were identified by polymerase chain reaction. Efficiency of immunomagnetic separation was verified on probiotic meat product, where Lactobacillus cells were isolated. With DNA from isolated Lactobacillus cells the high resolution melting was performed. The results show presence of several bacterial strains of Lactobacillus species.
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Laboratory diagnostics of micrometastases in breast cancer patients
Mikulová, Veronika ; Zima, Tomáš (advisor) ; Svoboda, Marek (referee) ; Průša, Richard (referee)
Introduction: The presence of circulating tumor cells (CTC) in the peripheral blood has been associated with worse prognosis and early relapse in breast cancer patients. CTC determination in the peripheral blood has been considered as a liquid biopsy. The aim of this project was to analyze the presence of CTC followed by their molecular characterization with the potential use not only as a new biomarker for real-time monitoring of therapy efficacy but also as a suitable tool for patient's stratification and individualization of treatment for breast cancer. Methods: A total of 54 patients with diagnosed early breast cancer were enrolled into a prospective study. Ten millilitres of peripheral blood were sequentially collected to test for the presence and characterization of CTC during the follow-up of patients. CTC isolation and detection was performed by AdnaTest BreastCancer™ (AdnaGen AG, Germany), which is based on the detection of EpCAM, HER2 and MUC1 specific transcripts in enriched CTC- lysates. cDNA from isolated CTC has been further used for newly optimized qPCR assays for breast tumor and therapy resistance associated genes: TOP1, TOP2A, CSTD, ST6GAL, KRT19 and reference gene actin. qPCR results have been analyzed by Genex software (MultiD Analysis). Results: 195 blood samples have been...
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Laboratory diagnostics of micrometastases in breast cancer patients
Mikulová, Veronika ; Zima, Tomáš (advisor) ; Svoboda, Marek (referee) ; Průša, Richard (referee)
Introduction: The presence of circulating tumor cells (CTC) in the peripheral blood has been associated with worse prognosis and early relapse in breast cancer patients. CTC determination in the peripheral blood has been considered as a liquid biopsy. The aim of this project was to analyze the presence of CTC followed by their molecular characterization with the potential use not only as a new biomarker for real-time monitoring of therapy efficacy but also as a suitable tool for patient's stratification and individualization of treatment for breast cancer. Methods: A total of 54 patients with diagnosed early breast cancer were enrolled into a prospective study. Ten millilitres of peripheral blood were sequentially collected to test for the presence and characterization of CTC during the follow-up of patients. CTC isolation and detection was performed by AdnaTest BreastCancer™ (AdnaGen AG, Germany), which is based on the detection of EpCAM, HER2 and MUC1 specific transcripts in enriched CTC- lysates. cDNA from isolated CTC has been further used for newly optimized qPCR assays for breast tumor and therapy resistance associated genes: TOP1, TOP2A, CSTD, ST6GAL, KRT19 and reference gene actin. qPCR results have been analyzed by Genex software (MultiD Analysis). Results: 195 blood samples have been...
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Imunomagnetic separation of lactic acid bacteria using magnetic microparticles functionalised by antibodies
Vaňásek, Jakub ; Španová, Alena (referee) ; Trachtová, Štěpánka (advisor)
Immunomagnetic separation is based on binding of antibody with antigen, where antibody is bound to magnetic particle. In this thesis there were used particles of magnetic pearl cellulose with antiLactobacillus and antiBifidobacterium antibodies. Immunomagnetic separation method was optimalized and verified for its efficiency and specifity with bacterial and yeast cells. This cells were identified by polymerase chain reaction. Efficiency of immunomagnetic separation was verified on probiotic meat product, where Lactobacillus cells were isolated. With DNA from isolated Lactobacillus cells the high resolution melting was performed. The results show presence of several bacterial strains of Lactobacillus species.
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Selective isolation of the genus Bifidobacterium bacteria from foods
Mizerovská, Lucie ; Šárka, Havlíková (referee) ; Rittich, Bohuslav (advisor)
Probiotic lactic acid bacteria (LAB) are very often used in food procesing industry, such as milk products, cheese and fermentsd salami production in nova days. In diploma thesis were tested symbiotic food supplements from different producers. Bacterial DNA was isolated from crude cell lysates of six food suplements by magnetic particles P(HEMA-co-GMA). PCR-ready DNAs were isolated. from all products The detection of Bifidobacterium bacteria identified by PCR was in agreement with those declared by the manufacturers. Magnetic particles with immobilized antibodies against Bifidobacterium were used in the next part of thesis. These particles were used for the isolation of target cells from two products with cell identification by genus specific PCR.
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Selective isolation of of the genus Lactobacillus bacteria from foods
Novotná, Eva ; Šárka, Havlíková (referee) ; Rittich, Bohuslav (advisor)
Probiotic lactic acid bacteria of genus Lactobacillus play an important role in the digestive tract of human. They are used in food processing and they are the part of food supplements. Lactic acid bacteria of the genus Lactobacillus can be identificated by polymerase chain reaction (PCR). Bacterial DNA was isolated from cell lysates of 4 synbiotic food suplements by magnetic particles P(HEMA-co-GMA). Isolated DNA was amplified by genus-specific and species-specific primers. Magnetic particles with immobilized antibodies against Lactobacillus bacteria were used in the next part of thesis. These particles were used for isolation target cells from products with their identification by genus specific PCR.
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