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The use of magnetic microparticles for bacterial DNA isolation
Hrudíková, Radka ; Horák, Daniel (referee) ; Španová, Alena (advisor)
The aim of the work was testing of two types of magnetic mikrosheres functionalised with –COOH groups for the isolation of bacterial DNA. Isolation of DNA was carried out from crude lysates of cells prepared from pure culture of Lactobacillus paracassei RL-10 in the presence of binding buffer with 2 M NaCl and 16% PEG 6000. The influence of RNA degradation by enzyme RNase A on the amount of isolated DNA was investigated. It was estimated that RNA degradation affects the amount of DNA isolated. The amount of DNA depended on the type of microparticles. Higher amounts of DNA were isolated using particles with higher content of carboxyl groups. DNA applicable in PCR was isolated using both types of microsheres. In next part of the work, microparticles functionalised with –NH2 groups were used to DNA isolation using electrostatic forces. It was shown that buffer with lower pH is suitable for DNA adsorption onto magnetic microparticles.
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Isolation of bacterial DNA from foods using magnetic carriers
Bubeníková, Lucia ; Horák, Daniel (referee) ; Španová, Alena (advisor)
The aim of the work was the selective isolation of bacterial DNA with help of magnetic carriers covered by streptavidine (PGMA-NH2-STV, MPG® Streptavidin). Conditions of functionalisation of carriers using two biotinylated probes were optimized: the amount of carrier, the amount of probe, binding of biotinyled probe to streptavidine. Purified DNA Lactobacillus was used for hybridization. DNA binding to the probe (DNA/DNA hybridization) and nospecific adsorption of DNA to the carrier were tested. Target DNA eluted from the carrier was identified using PCR with primers R16-1 and LbLMA1-rev and with primers P_eub and F_eub. The amount of probe bound to the carrier was estimated using UV spectrophotometry. It was estimated that biotinyled probe can be used for functionalisation in concentration 5 pmol/µl added to the carrier in the ration carrier : probe 1:1. It was shown that nonspecific DNA adsorption to the MPG® Streptavidin is significantly lower than to the carrier PGMA-NH2-STV.Using DNA/DNA hybridization and the MPG® Streptavidin, DNA from pure culture Lactobacillus was isolated. Procedure was applicated for DNA isolation from milk products.
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Isolation of DNA from probitic products using solid carriers
Bonczek, Ondřej ; Horák, Daniel (referee) ; Rittich, Bohuslav (advisor)
Microbial DNA was isolated from lysed cells of Lactobacillus genus in probiotic products. Reversible adsorption DNA on the surface of carboxyl coated nonporous poly(2-hydroxyethyl methacrylate-co-glycidyl methacrylate) (P(HEMA-co-GMA)) magnetic particles and silicagel coated manganase Perovskite nanoparticles. DNA was adsorbed on the surface of the particles in the presence of 16 % poly(ethylenglycol) (PEG 6000) and 2 M sodium chloride (NaCl) concentrations. The adsorbed DNA was released from particles by low ionic strength TE buffer (pH= 8.0). The quality of isolated DNA was checked by spectrofotometric measurement and PCR amplification. DNA samples isolated using magnetic particles and phenol extraction method (control method) were PCR-ready. The DNA isolated from lysed cells of probiotic products was quantificated in real-time qPCR.
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Identification of probiotic Bifidobacterium strains in dairy products
Zovčáková, Monika ; Horák, Daniel (referee) ; Španová, Alena (advisor)
Lactobacilli are dominant bacteria of the vaginal flora. Lactobacillus-containing probiotics products are used for the treatement and profylaxis of bacterial urogenital infections. This work is focused on DNA identification and species identification of probiotic bacteria in 5 different vaginal tablets using molecular-genetic methods. Total DNA isolated from complex matrix of vaginal tablets was used for amplification in polymerase chain reaction. DNA was isolated from crude cell lysates by magnetic particles P(HEMA-co-GMA) and by method of phenol extraction. Identification of species of probiotic bacteria was verified using genus-specific and species-specific PCRs. Results of bacterial identification obtained by PCR were compared with declared specification given by producers. Bacteria of genus Lactobacillus were proved in all tablets whereus species identification was in accordance with the stated composition in 1 tablet only.
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Izolation and identification of DNA from probiotic bacteria in complex matrices
Balogová, Petra ; Horák, Daniel (referee) ; Rittich, Bohuslav (advisor)
Nowadays, probiotic lactic acid bacteria (LAB) and bifidobacteria are plentifully exploited in food processing industry. LAB and bifidobacteria are important part of microflora of gastro intestinal tract (GIT). Probiotics (most often just lactobacilli and bifidobakteria) can be supplied to the GIT of the organism like food complements. Species identification is therefore very important. New methods of identification of LAB and bifidobacteria are based on analysis of DNA. Mostly exploited method is polymerase chain reaction (PCR). In my diploma work, genus and species specific PCRs were used for identification of different species of bacteria of genus Lactobacillus and Bifidobacterium in complex matrices of six food supplements (Zenflo, Linex Forte, Probian, Nutra Bona, GS lactobacillus Forte, Pangamin Bifi plus). Total DNA was isolated from crude lysates of cells present in tablets by magnetic particles coated by carboxyl groups . The preparation of cell lysates was optimalised. Different amounts of lysozyme (3 mg/ml, 10 mg/ml), time of incubation at laboratory temperature (1,5 hour, 3 hour) and time of incubation with SDS and proteinase K at 55 °C (1 hour, 3 hour, over all night) were tested. Isolated DNA was quantified and checked in PCR. Primers specific for genus Lactobacillus and Bifidobacterium and for species Lb. acidophilus, Lb. casei, Lb. rhamnosus and Lb. plantarum and B. animalis, B. bifidum, B. infantis, B. longum were used, respectively. All identified bacteria were in accord with the data declared by producer in 3 food supplements (Zenflo, Linex Forte and Pangamin Bifi Plus). The genus indentification was in accord with declaration of producer in other food products only (Probian, Nutra Bona, GS Laktobacily Forte).
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Nucleic acids isolation for diagnostic purposes using polymeric carriers
Syslová, Ivona ; Horák, Daniel (referee) ; Rittich, Bohuslav (advisor)
The isolation of deoxyribonucleic acid (DNA) was studied in the diploma thesis by using three different methods: phenol extraction, salting with sodium chloride and magnetic separation with reversible adsorption of nucleic acids on different magnetic carriers. There were used five different properly functionalized carriers for the isolation of DNA: magnetic silicagel, P(HEMA-co-GMA) ox. I, P(HEMA-co-GMA) ox. II, Dynal DNA Direct and Perovskit 439. The reversible imobilization of DNA on the magnetic carrier was proceeded under the conditions of high concentration of NaCl and poly(ethyleneglycol) (PEG). There was induced the condensation of DNA by 2 M NaCl and PEG with molecular mass 6000 for binding of the DNA to the magnetic carriers and the final concentration of PEG in the separation mixture was 8 and 16 %. The aim was to gain the DNA of quality suitable for polymerase chain reaction (PCR). The DNA was isolated from the bacterial cultures of three probiotic strains, L. amylovorus CCM 4380T, L. zeae CCM 7069 T, L. plantarum CCM 7039T, which were cultivated in MRS medium. The DNA was also isolated from the fermented dairy products: Jihočeský zákys s ovocem jahoda (the fermented dairy product with the probiotic culture of Lactobacillus acidophilus, Bifidobacterium lactis and Streptococcus thermophilus), Revital active (the yogurt with inulin and the probiotic culture of Lactobacillus rhamnosus, Lactobacillus acidophilus and Bifidobacterium sp.) and Actimel višeň (the dairy product with the probiotic culture of Lactobacillus casei). When the PCR with the isolated DNA was passed off, the PCR products were detected by the gel electrophoresis with agarose. The success of the DNA isolation of the probiotic bacteria by phenol extraction, salting with NaCl and by magnetic separation, was verified by the PCR method. The method of magnetic separation using magnetic carriers was also verified for the isolation of DNA of quality suitable for PCR from the probiotic fermented dairy products.
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