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Characterization of bacterial strains obtained in evolutionary engineering
Hrabalová, Vendula ; Sedláček, Petr (referee) ; Obruča, Stanislav (advisor)
This diploma thesis deals with application of evolutionary engineering on PHA producing bacterial strains. Two bacterial strains, Cupriavidus necator H16 and Halomonas halophila, were chosen for the evolutionary experiments. Copper cations (Cu2+) and sodium chloride (NaCl) were chosen as the selective pressure for C. necator H16; acetic acid (AA) and levulinic acid (LA) for Halomonas halophila. The adapted strains were during long-time evolutionary experiments characterized by GC-FID and SEC-MALS. The growth of the adapted strains was studied by the mean of optical density measurement. The amount of viable cells was determined by spectral FC after their expositon to selected stress factors. Specific enzyme activities of enzymes involved in citrate and glyoxalate cycle, enzymes generating NADPH, LA metabolism enzyme and PHA biosynthesis enzymes were determined. The adapted strains were compared with the wild-type of strains. The successfull adaptation of C. necator H16 adapted to Cu2+ was detected. Biomass and PHA production of both wild and adapted H. halophila strains cultivated in lignocellulosis waste were determined. It was found out that H. halophila adapted to the LA is capable of producing more PHA than the wild strain of this bacteria.
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Acetic acid as a side product of metabolism of PHA producing bacteria
Ryšavá, Lenka ; Obručová,, Hana (referee) ; Obruča, Stanislav (advisor)
The Bachelor´s thesis deals with experimental study production of acetic acid as a side product of metabolism of PHA producing bacteria. Experimental part of work deals with the impact of used substrate on the biomass growth, PHA production and the formation of organic acids in strains that can potentially find their application in industrial production of PHA – Cupriavidus necator H16, Burkholderia sacchari, Burkholderia cepacia. The highest yields of organic acid have been reached on Burkholderia sacchari when cultivated on mineral medium with glucose. The last part of the thesis is focused on determining the viability of micro organisms using flow cytometry where bacteria Cupriavidus necator H16, Burkholderia sacchari, Burkholderia cepacia were exposed to selected stress factors.
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Influence of PHA accumulation on resistance of bacteria against selected antibacterial drugs
Hrabalová, Vendula ; Kučera, Dan (referee) ; Obruča, Stanislav (advisor)
The aim of this bachelor thesis was to study the effect of bactericidal drugs on bacteria from the genus C. necator H16 and its mutant genus PHB-4. The genus H16 shows ability to accumulate polyhydroxyalkanoates (PHA) in the form of granules while the genus PHB-4 lacks to show this ability. The theoretical part of the bachelor thesis is focused on the effect of antibiotics on bacteria in general and the determination of susceptibility of bacteria to antimicrobial substances. The effect of three specific antibiotics (nisine, streptomycin and penicillin) on both bacterial strains was tested in the experimental part. The viability of bacteria was determined by the spread plate method and flow cytometry. Agar diffusion test and broth microdilution test were used to test the susceptibility of bacteria. It was concluded that the accumulation of PHA decreases the tolerance of bacteria to antimicrobial substances because the genus C. necator H16 is more susceptible to streptomycin and penicillin then the strain C. necator PHB-4.
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Biodegradability of bacterial natural and modified polyesters and their composites
Pala, Martin ; Babák, Libor (referee) ; Obruča, Stanislav (advisor)
Presented work was focused on biodegradability of bacterial natural and modified polyesters and their composites. The first part of the work was focused on study of influence of PHA granules structure on their biodegradability using selected enzymes and influence of physiological conditions on PHA stability. Overall, tested polymer either in crytalinne or amorphous phase seems to be rezistent to attack of seleced hydrolytic enzymes such as lipases or proteases and is stable in simulated physiological fluids as well. Because of thies results, it is possible to use tested PHA materials in biomedical applications requiring rather resistant biomaterials. Second part of the work was focused on microbial degradation of modified PHA materials considering their potential environmental impact. Both mixed thermophillic culture originaly used in wastewater treatment plant and bacterial strain Delftia acidovorans were employed for biodegradation tests. Composites containing chlorine PHB and PHB films modified using plasticizers were tested. Films containing chlorine PHB cause inhibition of biomass growth to both tested cultures. The highest rate of degradation (31%) was observed in presence of bacterial culture with film containing 10% chlorine PHB. The results show that used microbial population is important factor affecting biodegradability.
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Employment of bacterium Tepidimonas taiwanensis for production of polyhydroxyalkanoates on waste substrates
Vidláková, Michaela ; Pernicová, Iva (referee) ; Obruča, Stanislav (advisor)
This diploma thesis is focused on screening PHA production using thermophilic bacterium Tepidimonas taiwanensis and on the study of possible use of grape pomace, molasses and waste paper as a cheap carbon substrate for culturing the characterized bacteria. At first, testing of basic cultivation parameters was performed, including carbon substrate concentration, oxygen availability, ability to utilize nitrogen sources and selected disaccharides. PHA production from waste substrates was tested in three ways. In the first, pre-prepared solids-free hydrolysates from raw materials were used as the carbon source. The second and third procedures were performed by dosing waste materials directly into the mineral media, which differed only in the presence or absence of the enzyme preparation enabling release of fermentable sugars. The most intensive increase in culture and the highest production of PHA was recorded on grape hydrolyzate. The biomass concentration in this sample reached up to 4.8 g/L with a content of 59 % PHA. On the other hand, the addition of grape marc directly to the production medium did not work at all, which was probably due to the presence of a large amount of inhibitory substances from the pomace. The situation was similar with molasses and waste paper, where the bacterium Tepidimonas taiwanensis was able to grow and possibly produce PHA only to a small extent. The work also managed to characterize the effect of temperature and pH on the activity of the enzyme cocktail Viscozyme L and to determine the temperature and pH optimum PHA synthase of the bacterial strain Tepidimonas taiwanensis in the cell lysate.
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Stress resistance of PHA accumulating bacteria against conditions associated with gastrointestinal tract
Kovářová, Radka ; Nováčková, Ivana (referee) ; Obruča, Stanislav (advisor)
This bachelor thesis is focused on stress resistance of PHA accumulating bacteria against unfavourable conditions associated with gastrointestinal tract. Two bacterial strains were chosen as model microorganisms for this purpose. Cupriavidus necator H16 producing PHA and its mutant strain Cupriavidus necator PHB-4 without the ability of PHA accumulation. Firstly, three gastrointestinal juices of different concentrations were chosen for the experimental part, namely gastric, bile and pancreatic juices. The stressed bacterial strain was then determined using a spread plate method and a flow cytometry. Other methods used include antimicrobial tests. The agar diffusion method was first tested to determine the size of the inhibition zones. The last method that has been performed is the broth dilution method, which serves to compare the absorbance of pure bacterial suspensions and stressed suspensions with the given juice of a certain concentration. The results show that the production of PHA represents a disadvantage in context of conditions associated with gastrointestinal tract of accumulating bacterial strain.
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Utilization of PHA producing bacteria in bioremediation technologies
Šuráňová, Zuzana ; Sedláček, Petr (referee) ; Obruča, Stanislav (advisor)
The aim of this work is study of utilization of PHA producing bacteria in bioremediation technologies. For this study were used bacteria Pseudomonas putida KT2440 and two isolates from soil contaminated by petroleum - Pseudomonas gessardii (D2) a Pseudomonas fulva (D3). The experimental part describes especially study of feather biodegradation using selected microbial strains. All the tested bacterial strains were capable of feather degradation and utilization as the sole carbon source. During biodegradation experiment, we monitored weight loss of feather, protease and keratinase activity, concentration of bacterial biomass and PHA content as well as pH. The highest biodegradation ability and keratinase activity was observed in Pseudomonas putida. None of tested bacteria accumulated detectable amount of PHA during growth on waste feather, nevertheless, bacterial biomass grown during feather degradation can be used as an inoculum for PHA production on waste frying oil and octanoic acid. Using this experimental setup, high PHA content (54% of cell dry weight) was achiaved in Pseudomonas putida. Another part of the thesis deals with biodegradation of petroleum oil. The highest capability of growth on this carbon source were determined in Pseudomonas fulva.
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Evolutionary engineering of polyhydroxyalkanoates producing bacteria
Nováčková, Ivana ; Kovalčík, Adriána (referee) ; Obruča, Stanislav (advisor)
This diploma thesis deals with the application of evolutionary engineering to PHA producing bacterial strains. The aim of the thesis is to prepare strains adapted to levulinic acid, a selected stress factor, by methods of evolutionary engineering, and then to characterize these strains. The theoretical part deals with evolutionary engineering and polyhydroxyalkanoates predominantly. The bacterial strain Cupriavidus necator H16 was used for evolutionary experiments. Levulinic acid and levulinic acid in the presence of the MMS mutagen were applied to prepare adapted strains. Selection of mutants was evaluated on the basis of growth potential and PHA content in biomass. Polymers produced by five obtained PHA-producing mutants and control were characterized using GC-FID, SEC-MALS, DSC and FT-IR. It was found that a higher content of 3HV in the copolymer led to a lower crystallinity and hence to a lower melting point, nevertheless, only the copolymer of the M0151 strain did not fit this trend. In addition to the characteristics of the polymers, the strains themselves were evaluated from the biochemical point of view by determining the activities of selected enzymes of the citrate, glyoxalate and 2-methylcitrate cycle, selected enzymes generating NADPH, levulic acid catabolism enzyme and PHA biosynthesis enzymes. On the basis of the obtained data, the possible adaptation strategies were discussed, when the E0575 strain was most differentiated from original culture. Values of specific enzyme activities were subjected to AHC and PCA statistical analysis methods.
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Study on PHA accumulation by cyanobacteria
Pacasová, Viktorie-Alexandra ; Slaninová, Eva (referee) ; Obruča, Stanislav (advisor)
This bachelor thesis was focused on studying the influence of selected stress factors on PHB production in strains of cyanobacteria Synechocystis sp. PCC 6803 and Synechocystis salina CCALA 192. Cyanobacterial stains were cultivated in multicultivator and as a stress factor an increased salt (sodium chloride) as well as a mixture of acetate and -butyrolactone was selected. The PHB content in cyanobacteria was determined by gas chromatography. In addition, the content and presence of pigments in cyanobacteria strains was determined by pigment extraction as well as using direct spectroscopy of whole cells. When cultivated with an increased salinity, the hypothesis of an increased PHB production was not confirmed most likely due to and overstressing the Synechocystis salina CCALA 192 cultures with increased salt content, constant illumination of multicultivator and by nitrogen limitation due to the used medium. When cultivated with the mixture of acetate and -butyrolactone the stains were analysed in the same way as in the cultivation with an increased salinity. In this case, the presence of 3-hydroxybutyrate and 4-hydroxybutyrate copolymer was determined in the stain cultivated with the mixture of acetate and -butyrolactone. During this cultivation, a positive effect of initial concentration of cells in the cyanobacterial cultures combined with continuous illumination and the type of nitrogen-limiting type of medium on the growth rate of selected stains was observed.
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Evolutionary engineering of cyanobacteria with respect to PHA accumulation
Vašířová, Kristýna ; Slaninová, Eva (referee) ; Samek, Ota (advisor)
The aim of this diploma thesis was to subject selected cyanobacterial strains to adaptive evolution and subsequently investigate the properties of the resulting adapted strains, especially their changes related to polyhydroxyalkanoates (PHA) accumulation. The theoretical part of the work describes in more detail the issue of cyanobacteria, PHA and their interconnection in the field of evolutionary engineering. Cyanobacterial strains Synechocystis sp 6803 and. Synechocystis salina CCALA 192 were used for evolutionary experiments. Selection pressures of hydrogen peroxide and copper. were applied to selected representatives. The resulting cultures and their ability to accumulate PHA were subsequently assessed by gas chromatography. Both of these selection pressures proved to be unsuitable, as strong growth inhibition was observed after their application to cultures, which did not allow the application of evolutionary engineering methods. In the second half of the experimental part, the provided adapted strains to 6% NaCl were monitored. Adaptation has been shown to have a positive effect on microorganisms, as they have a higher biomass content, better stress resistance and a slight increase in PHA accumulation.
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