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The application of magnetic nano- and microparticles for the isolation of DNA from selected foods
Ráčková, Lucie ; Rittich, Bohuslav (referee) ; Kovařík, Aleš (advisor)
In thesis was verified micromethod for isolation of plant DNA from different vegetable (onion and broccoli) and plant food products in quality for application in polymerase chain reaction (PCR). The micromethod allows isolation DNA using magnetic particles from crude lysates of cells obtained by direct homogenization of plant tissues. Various methods of processing homogenates were compared. Homogenization was performed by lysis buffer containing cetyltrimethylammonium bromide (CTAB). The effect of the organic extraction agents was tested (chloroform-octanol and isopropanol). DNA was purified from homogenates by reversible adsorption on magnetic particles (four different types of magnetic particles were tested). The quality of isolated DNA was verified by UV spectrophotometry. The amplificabilty of DNA was tested by polymerase chain reaction (PCR). Specific primers for plant ribosomal DNA (rDNA) were used. PCR products of lenght 700 and 220 bp were detected by agarose gel electrophoresis. Differences in yield and quality of DNA were depended on the homogenate processing and magnetic particles used. The proposed procedure with two magnetic particles was tested for the isolation DNA from plan food products (spreads). DNA was amplified in PCR. Micromethod is suitable for DNA analysis of foods.
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The application of magnetic particles for DNA isolation from selected vegetable products
Akwari, Michala ; Rittich, Bohuslav (referee) ; Kovařík, Aleš (advisor)
Micromethod of DNA isolation using magnetic particles is one of the modern technological methods used in DNA isolation, and makes the process simpler, more effective and faster. The main aim of this study was to isolate the DNA from various plant (tomato) food products, using different types of magnetic particles. The results were compared and the quantity, purity and the possibility of amplication of the isolated DNA among samples were found to be different. The DNA isolation method using magnetic particles P(HEMA-co-GMA) or HPS B-M-NH2 was shown to be the most effective in achieving the above mentiond parametres. DNAs from the analysed samples of plant food products were isolated in sufficient quantity and quality to be used in the conventional PCR. Differences in the possibility of the amplification of the isolated DNA stored at -20 °C during more than a half year were not found.
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Comparison of different types of magnetic carriers for DNA microisolation from foods
Koplík, Jerguš ; Lunerová,, Jana (referee) ; Kovařík, Aleš (advisor)
Micro-isolation of PCR-ready from fresh and dried legumes seeds and food products containing legumes (hummus) was tested. For optimization process magnetic microparticles PGMAox was used. Optimum weight plants and food material was 200 mg. For isolation of DNA from fresh legumes, mixture containing 500 L of CTAB extraction buffer, 1 L -mercaptoethanol and 500 L chloroform-octanol was used. For isolation of DNA from dried legumes seeds and food products volume of CTAB extraction buffer was increased to 1 000 L. To achieve higher purity of DNA some prepared homogenates was precipitate by isopropylalcohol. The optimized process of DNA isolation was used to prepare a homogenate from food products which DNA was isolated by different types of magnetic carriers. For comparison, non-porous magnetic carriers poly(glycidyl methacrylate) PGMAox, poly(2-hydroxyethyl methacrylate-co-glycidyl methacrylate) P(HEMA-co-GMA)ox covered by carboxyl groups and porous fully crosslinked microparticles poly(styrene-co-divinylbenzene) HPS-B-M-22-NH2, magnetic porous glass MPG and nanoparticles of iron oxides covered by poly(L-lysine) PLL were used. In average the highest concentration and the best purity of DNA was isolated by magnetic carriers P(HEMA-co-GMA)ox a PGMAox.
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Modification of Speech Rate
Kovářík, Aleš ; Schwarz, Petr (referee) ; Szőke, Igor (advisor)
This diploma thesis discusses modification of a speech rate. The PSOLA (Pitch Synchronous OverLap Add) method was used for the rate modification. This algorithm works in time domain. Another method -- phase vocoder, which works in frequency domain is also presented in an overview. This thesis extends the PSOLA method with a phoneme recognition, which allows for better understandability of the speech output by considering characteristics of the phonemes beeing pronounced. To examine this proposed method, an application connecting PSOLA and a phoneme recognizer was developed.
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Sample preparation for DNA analysis from foods of plant origin
Silná, Renata ; Rittich, Bohuslav (referee) ; Kovařík, Aleš (advisor)
The isolation of high quality DNA is nessecary for many molecular biology applications. However, plant DNA contains high amonts of polysaccharides, polyphenols and various secondary metabolites, which decrease yield and quality of isolated DNA. The aim of this study was preparation of samples and different food matrices for DNA isolation DNA by magnetic particles. It was about 5 species of vegetable and 10 species of processed plant food. Homogenization of samples was performed in CTAB buffer. Isolation of plant DNA was performed by magnetic particles covered with carboxyl groups. All DNAs were isolated in conventional PCR qualities using primers for 700 bp amplicons, in the case of heat processed products for 220 bp ampilicons and for real time PCR. The efficiancy of separation of magnetic particles with DNA by magnetic separator and magnetic needle was compared. It was find out that DNA of higher purity was isolated using magnetic needle. The micromethod of isolation of plant DNA from homogenates with CTAB with magnetic particles is suitable for different processed food.
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Isolation and detection of DNA from plant species important for food prodution
Orel, Matúš ; Rittich, Bohuslav (referee) ; Kovařík, Aleš (advisor)
In the food industry, it is very important to take care of the quality, safety and organoleptic properties of the products supplied. For this reason, food must be checked. However, not all information can be found using conventional techniques such as immunoassays, chromatographic techniques, etc. DNA-based techniques can be used for these cases where traditional procedures are insufficient. Among them, the best known technique is PCR. The aim of the thesis was to isolate DNA from vegetable samples (broccoli, beetroot, carrot and pepper). DNA was isolated using the magnetic particle method and the traditional CTAB method. Both methods were able to isolate the DNA from the vegetable samples in quality and at a concentration suitable for PCR, where the 35S rDNA gene region was amplified (more precisely about 700 bp of the 18S-ITS1-5,8S region). After amplification, the PCR products were subjected to restriction reactions and the results compared to bioinformatic analysis. These steps have succeeded in finding suitable enzymes for diferentiation of PCR products from the tested vegetable species.
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Evaluation of a micromethod for isolation of DNA from plant leaf, fruit and fruit products
Balažovičová, Nikola ; Rittich, Bohuslav (referee) ; Kovařík, Aleš (advisor)
The thesis has been focused on testing of micromethod of DNA isolation from leaves, fruits and fruit products. Jams were selected for the analysis of plant DNA in technologically processed foods. Plant leaves, fruits, and jams were homogenized using plastic copist in a lysis buffer containing 2% cetyltrimethylammonium bromide (CTAB) with 2.5M sodium chloride (NaCl). Microisolation of plant DNA was performed using poly(hydroxyethylmethacrylate-co-glycidylmethacrylate) – P(HEMA-co-GMA)microparticles. Isolated the DNA concentration and purity were assessed by UV light aborbance using a spectrophotometer. After that, amplification of the DNA was tested in PCR. Primers specific for plant ribosomal DNA: 18S_for a 5,8S_rev (PCR product - 700bp), 26S_for a 26S_rev (PCR product - 220 bp), 18S_for a 18¬S_rev (PCR product - 263 bp) were used. The PCR conditions were optimized and the effect of the amplicon length on its detection was followed. PCR products were detected by agarose gel electrophoresis. It was shown that DNA isolated from almost all of leaves using magnetic particles was in PCR-ready quality in contrary to the fruits. DNA amplified in PCR with primers giving short PCR products was isolated from almost all tested jams. The method must be optimalised, yet.
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DNA isolation from selected vegetable products (paprika)
Gőghová, Sabína ; Kuderová,, Alena (referee) ; Kovařík, Aleš (advisor)
The diploma thesis deals with micromethod of DNA isolation from ten differently processing food products containing pepper (Capsicum annum). PCR ready DNA was isolated by magnetic particles PGMA functionalized by carboxyl groups from homogenates prepared in lysis buffer with CTAB. Quantity and quality of DNA was estimated using spectrophotometric measurements and verified using PCR methods with primers specific for plant rDNA. Quality of isolated DNA varied depending on processing technology. DNA isolated from smoked grinded peppers and from heat treated food products was degraded and amplified with primers F_26S and R_26S (PCR product 220 bp) in contrary to the primers F_18S and R_5.8S (PCR product 700 bp). DNA isolated from the other food products was amplified with primers F_18S and R_5.8S (PCR product 700 bp). PCR product from one grinded pepper (Žitavská paprika) was cloned and sequenced.
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The application of magnetic particles for DNA isolation from thermally processed food products
Hronová, Aneta ; Rittich, Bohuslav (referee) ; Kovařík, Aleš (advisor)
The thesis has been focused on testing of micromethod of DNA isolation using magnetic particles from thermic-managed food products in a quality suitable for polymerase chain reaction (PCR). Currant jams were selected for the analysis. These were homogenized using plastic copist and stomacher in lysis buffer with cetyltrimethylammonium bromide (CTAB). The effect of chloroform-octanol and isopropanol in the preparation of homogenates was tested. Homogenates were used for DNA isolation by magnetic particles. Rough fraction of DNA was purified by binding on the magnetic particles after centrifugation of the CTAB complexes with proteins, polyphenols and polysaccharides. Two types of magnetic particles were tested: microparticles of poly(hydroxyethylmethacrylate-co-glycidylmethacrylate) - P(HEMA-co-GMA) and nanoparticles of iron oxides covered by poly(L-lysine) - PLL. Isolated DNA was analyzed spectrophotometrically - it was assessed its concentration and contamination by polyphenols and proteins. After that, amplification of the DNA was tested in PCR. Primers specific for plant ribosomal DNA were used. PCR products of expected length 700 bp were detected by agarose gel electrophoresis. It was shown that DNA isolated from currant jams using magnetic particles was in PCR-ready quality.
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The use of magnetic particles for isolation and purification of DNA from products for children nutrition
Pešková, Aneta ; Rittich, Bohuslav (referee) ; Kovařík, Aleš (advisor)
Isolation of plant DNA is complicated due to the presence of polyphenols, polysaccharides and other metabolites, that are isolated together with DNA. These compounds can affect the yield and quality of DNA and can inhibit a polymerase chain reaction (PCR). A modern, simple, and fast method of DNA isolation in molecular biology laboratories is magnetic separation based on reversible DNA immobilization on magnetic particles. These methods allow to obtain DNA of high quality and purity. In the experimental part, magnetic microparticles PGMA 2 mg/ml and magnetic nanoparticles functionalized by polylysine (PLL) 0,2 mg/ml were used for isolation of plant DNA from vegetables (carrots), fruits (pear, apple, lemon, mango) and heat treated food products for children (Hami first carrot, Nestlé fruit pocket, dmBIO pear carrot apple, Hello fruit snack with apples and Hello fruity snack with mango). The efficiency of separation of magnetic particles with bound DNA using a magnetic needle and a magnetic separator were compared. The quality and quantity of isolated DNA were verified by spectrophotometric analysis. The amplificability of isolated DNA was tested in a conventional PCR using primers specific for plant ribosomal DNA (rDNA). PCR products were analyzed by agarose gel electrophoresis. Major fluorescent bands were of 700, 350 and 220 bp corresponding to three different rDNA amplicons. DNA was isolated from heat treated food products for children in a PCR-ready quality. Only 220 bp long PCR products were detected, that indicated DNA degradation. The identity of PCR products was determined by restriction fragment lenght analysis (RFLP) using NlaIII enzyme cutting the rDNA subregion (ITS1) of Daucus carota (carrot). The digestion profiles were in a good agreement with those predicted from bioinformatic analysis confirming, thus, the specificity of the developed PCR method.
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