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Analysis of the composition of selected probiotic products by PCR-HRM
Tomanová, Barbora ; Španová, Alena (referee) ; Trachtová, Štěpánka (advisor)
This work was focused on the detection of probiotic bacteria in four different probiotic products (probiotic cream, probiotic tampons, oral probiotics and soy beverages with probiotics). The viability of the bacteria contained in the products was verified. Complex matrices of the products were used to isolate DNA in a quality suitable for the PCR method, followed by identification of the declared bacterial genus and species. Amplification was achieved with conventional PCR and real-time PCR, genus- and species-specific primers were used. Bacteria, of the genus Lactobacillus and Bacillus and bacterial species Lactobacillus pentosus, Lactobacillus rhamnosus, Lactobacillus fermentum and Lactobacillus gasseri, were proven to be within the products. Subsequently, the DNA from mixed bacterial species in the probiotic tampon were distinguished using PCR-HRM. Five sets of primers were used to test this. Two sets of primers (primers P1V1, P2V1 and V1F-HRM, V1R-HRM) were evaluated as the most suitable for resolution.
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Magteic particles and their applications in biotechnology
Knápková, Monika ; Konečná, Jana (referee) ; Trachtová, Štěpánka (advisor)
The thesis is focused on the magnetic particles which are used in several biotechnological applications. The theoretical part deals with the specific properties of these nanoparticles and materials of which the nanoparticles can be made. There are also mentioned some of the biotechnological applications of magnetic particles. During the experimental part, selected types of magnetic particles were used to isolate nucleic acid. The quality of the isolated DNA with respect to purity was evaluated using the polymerase chain reaction and its modifications. High resolution analysis (HRM analysis) was also used to verify the quality of the isolated DNA and to resolution Lactobacillus casei and Lactobacillus rhamnosus. DNA isolation using magnetic carriers was successful. Commercially available MPG microcarriers and magnetic microparticles Fkol 77ox were the most suitable. In terms of purity magnetic nanoparticles F79/L3-PLL were the most suitable for the DNA isolation. The resolution of bacterial strains of Lactobacillus casei and Lactobacillus rhamnosus was not successful.
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Foodborne Staphylococcus Aureus: Identification and Enterotoxin Production in Milk and Cheese.
Hrušková, Vendula ; Španová, Alena (referee) ; Kmet,, Vladimír (referee) ; Kaclíková, Eva (advisor)
Onemocnění z potravin (alimentární onemocnění) vyvolaná bakteriemi jsou stále aktuálním tématem v celosvětovém měřítku. Abychom zajistili výrobu zdravotně nezávadných potravin, je potřeba nových poznatků o virulenci patogenů, které by doplnily již známé skutečnosti o jejich růstu a přeživání v potravinách. Také potřebujeme vyvíjet rychlé a citlivé metody na detekci těchto patogenů. Dizertační práce popisuje metodu na detekci S. aureus v potravinách, která je založená na PCR v reálném čase ve spojení s namnožením v selektivním médium. Dále pojednává o vlivu environmentálních faktorů na růst S. aureus a tvorbu enterotoxinů v mléce a sýrech. Vyvinuli jsme rychlou a citlivou metodu na detekci S. aureus v potravinách s použitím selektivního namnožení a PCR v reálném čase. Nově vyvinutá metoda umožnila detekci S. aureus na druhý den od přijetí vzorku. Tato metoda může být použita jako rychlejší, citlivějsí a vysoce specifická alternativní metoda ke konvenční mikrobiologické metodě. Zkoumali jsme vliv tří různých teplot, 8°C, 12°C a 20°C na růst S. aureus a tvorbu enterotoxinu D v pasterizovaném mléce a na růst, expresi genu sed a tvorbu enterotoxinu D v tekutém médiu s extraktem z mozku a srdce (BHI). Experimenty byly prováděny v malých skleněných fermentorech po 6 dní. Genová exprese byla sledována pomocí qRT-PCR a tvorba enterotoxinu D byla měřena pomocí imunologické metody ELISA. Růstová křivka v BHI měla stejný průběh při 20°C a 12°C, ale v při 12°C začal růst se spožděním. Při 8°C nebyl pozorován žádný růst. Růst S. aureus v mléce byl ve srovnání s BHI menší. sed mRNA byla detekována při 20°C po 4 hodinách a při 12°C po 7 hodinách a produkce enterotoxinu se objevila v exponenciální fázi růstu. V mléce se produkce SED při 20°C a při 12°C objevila dříve, ale celkové množství vyprodukovaného SED bylo nižší než v BHI. Při 8°C nebyla pozorována žádná produkce SED stejně jako v BHI. Dále byl zkoumán společný vliv nízké teploty 12°C a přítomnosti kompetitivní doprovodné mikroflóry pocházející ze surového mléka na růst S. aureus a produkci enterotoxinu v pasterizovaném mléce. Byl pozorován inhibiční účinek na růst a produkci enterotoxinů a vliv kompetice byl výraznější než vliv nízké teploty. Produkce enterotoxinu byla nízká a odpovídala růstu. Snížením množství doprovodné mikroflóry a zvýšením inokula došlo pouze k nepatrnému zvýšení produkce enterotoxinu. V další fázi byly dva různé typy sýrů zaočkovány S. aureus za účelem simulace sekundární kontaminace při výrobě sýrů. Vzorky byly odebírány v průběhu 4 týdnů. Kritické faktory jako jsou kompetitivní mikrofóra nebo pH, které jsou zodpovědné za regulaci virulence S. aureus byly sledovány. Snažili jsem se rozlišit situace při kterých: (i) není pozorován růst, ale objevuje se produkce enterotoxinu a (ii) dochází k růstu ale bez produkce enterotoxinu.
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Application of the method PCR-HRM analysis to identify bacteria in foods and food supplements
Šurková, Alice ; Illková, Kateřina (referee) ; Trachtová, Štěpánka (advisor)
Theoretical part of the thesis was focused on foods and food supplements containing microorganisms, especially bacteria. Furthermore, the thesis deals with methods for identification of the bacteria, primarily polymerase chain reaction (PCR). The thesis also includes real-time PCR and is specially focused on high resolution melting analysis (HRM). During the experimental part, the DNA sample was isolated from a chosen probiotics product using magnetic microparticles. The concentration of the DNA sample was determinate and DNA was subjected to PCR with subsequent detection PCR products by agarose gel electrophoresis. To the results specify HRM analysis was then performed.
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Probiotics for children's nutrition
Pokorná, Martina ; Němcová, Andrea (referee) ; Skoumalová, Petra (advisor)
This Diploma thesis deals with probiotic bacterias for children nutrition. It proposes a probiotic food supplement with a probiotic blend composed of a strain of the genus Lactobacillus and of the genus Bifidobacterium, which would be most suitable for infant consumers. The theoretical part is focused on probiotics, constitution of the children´s ganstrointestinal tract and screening of probiotic and gelatine supplements which are already sold on the market. In the experimental part, probiotic bacteria were subjected to model digestion, whereby mixtures of strains having the lowest reduction in viability after digestion were blend based on the results. The blend of Bifidobacterium breve CCM 7825T, Bifidobacterium longum CCM 4990 and Lactobacillus casei CCM 4798 was chosen as the most suitable blend of the lowest viability reduction. PCR in real time was demonstrated the presence of all strains added to the blend after model digestion. Finally, from the data was suggested a more comprehensive probiotic food supplement in the form of an alginate-agar gummy-bear for children over three years of age. The probiotic food supplement was subjected to sensory analysis too. The proposed probiotic food supplement also contained Chlorella and Spirulina active compounds and higher content of omega 3 and 6 fatty acids in hemp oil.
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Optimization of DNA isolation form yogurt cultures and their detection by RT-PCR
Šurková, Alice ; Němcová, Andrea (referee) ; Brázda, Václav (advisor)
The thesis has optimized DNA isolation from pure yoghurt cultures and yoghurt products. The isolated DNA was than subjected to RT-PCR analysis. In the first part of the thesis, DNA isolation from pure yoghurt cultures using a commercial kit was evaluated as more effective than isolation by phenol extraction and magnetic microparticles. To assess the quality and quantity of DNA obtained the spectrophotometric determination of concentration and purity and qPCR were used. DNA of a total of ten pure yoghurt cultures in a quality suitable for PCR was obtained using the commercial kit. In the second part of the thesis, bacterial DNA was isolated from yoghurt products using the same commercial kit with a previous sample washing by lysation solution. DNA of six yoghurt products was isolated this way. Furthermore, two packages of homemade yoghurt were mad of each product, of which DNA was isolated in the same way. DNA obtained from yoghurts was subjected to RT-PCR using six pairs of primers (V3_F a V3_R, V6_F a V6_R, V1_F a V1_R, GroHRM_F a GroHRM_R, UPF a UPR, P1V1 a P2V1) and using the pure cultures DNA as a positive controls. The results confirmed the presence of cultures declared in each yoghurt and their ability to multiply after inoculation into a new medium (milk).
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Use of high resolution melting analysis for the study of lactic acid bacteria
Knápková, Monika ; Němcová, Andrea (referee) ; Brázda, Václav (advisor)
Currently, there is a growing interest in the use of probiotic products, and there are many of them in the market. With the growing interest, greater emphasis is placed on the identification of declared probiotic microorganisms. Precise identification of microbial composition is often a difficult task and it requires more advanced methods especially in the field of molecular diagnostics. The diploma thesis was focused on the verification of the presence od declared probiotic microorganisms in probiotic food supplements GS Laktobacily Forte 21, Biopron 9 Premium and Linex® Forte. DNA was isolated from the complex matrices by phenol extraction, commercial kit and magnetic carriers F79/L3-PLL in the quality suitable for PCR. Subsequently, the isolated DNA was amplified by real-time polymerase chain reaction using genus- and species-specific primers. The specific PCR product was subjected to agarose gel electrophoresis, whereas species identification was not always in compliance with the data declared by producers. The next part of the thesis was focused on polymerase chain reaction with high-resolution melting analysis to distinguish bacterial strains belonging to the Lactobacillus group and to identify probiotic microorganisms present in the complex matrices of the probiotic food supplements. Eight primer sets were tested (V1F HRM a V1R-HRM, CHAU-V3F a CHAU-V3R, CHAU-V6F a CHAU-V6R, LAC2 a LAC4, LAC1 a LAC2, P1V1 a P2V1, poxcDNAFw a poxPromRVC, poxcDNAFw a poxPromRVT). Three primer pairs (V1F HRM a V1R-HRM, poxcDNAFw a poxPromRVC, poxcDNAFw a poxPromRVT) were evaluated as the most suitable for distinguishing Lactobacillus bacterial strains.
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Using different methods of DNA isolation of lactic acid bacteria in molecular biological methods
Chvalkovská, Eva ; Skoumalová, Petra (referee) ; Brázda, Václav (advisor)
This thesis focused on the probiotic bacteria, DNA isolated from these bacteria by three different methods and the effect of isolation on DNA identification using molecular biological methods. Probiotic bacteria are an important part of human intestinal tract. They have an important role in the function of the immune system due to adhesion to the mucosa of the intestinal flora. They create a inhostile environment for pathogens. Probiotic bacteria are commonly taken in the food like dairy products or food supplements. However, overuse of antibiotics is at risk of passing on the intrinsic resistance that probiotic bacteria have to the pathogenic bacteria. The intrinsic resistence they have to maintain the natural homeostasis of the intestinal tract. It is important to effectively identify risky probiotic bacteria that have the ability to transmit resistance to eliminate their presence in food and dietary supplements. Three methods of DNA isolation like phenol extraction method, magnetic particle isolation and commercial kit isolation were used in the experimental part. DNA was isolated from three dietary supplements, namely Biopron 9 premium, Linex forte and GS Lactobacily forte 21. The purity and concentration of the isolated DNA was detected spectrophotometrically. The presence of individual DNA strains in dietary supplements was confirmed by real-time polymerase chain reaction. The best method of isolation in terms of purity and concentration of isolated DNA was evaluated by RT-PCR and spectrophotometry using a commercial kit isolation method.
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New trends in the use of probiotics in cosmetic products and their characterization
Dvořáková, Monika ; Němcová, Andrea (referee) ; Trachtová, Štěpánka (advisor)
Probiotic products have always been, in the form of various dairy products, a part of our diet. In recent years, they also became prominent in the pharmaceutical sector, where they can often be found as food supplements, and in the cosmetic sector, where they are being added to intimate hygiene and skin care products. The first part of the thesis consists of conducting a theoretical research in the field of probiotics, microbiome and other possibilities of where we can find probiotic organisms in cosmetic products. Further, a part of the thesis is devoted to methods of cultivating and isolating bacterial DNA from the following products: Benton, Mechnikov, La Rosche-Posay creams and Benton and Neogen masks, in sufficient quality for subsequent PCR amplification. DNA was isolated using magnetic carriers, a commercial kit, and phenol extraction. The presence of bacterial DNA was proved by a q-PCR analysis using genus-specified primers of selected bacteria. Genus identification corresponded with the information declared by the manufacturer. To conclude, a PCR and propidium monoazide dye were used in combination for quantification of viable and dead cells, and a HRM analysis was performed.
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