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Production of extracellular polysaccharides by extremophilic prokaryotes
Bystrická, Klaudia ; Smilek, Jiří (referee) ; Obruča, Stanislav (advisor)
Predložená diplomová práca sa zaoberá štúdiom biotechnologickej produkcie extracelulárnych polysacharidov (EPS) vybraných termofilných a halofilných mikroorganizmov. Po primárnom screeningu vybraných kultúr bola experimentálna časť tejto práce ďalej venovaná halofilnému archea Haloferax mediterranei. Cieľom tejto práce bola produkcia a charakterizácia polymérov a posúdenie biotechnologického potenciálu použitých extremofilných kultúr ako producentov EPS. Počas kultivácie H. mediterranei boli použité 3 základné média, ktoré boli následne optimalizované v prospech produkcie EPS. Získané precipitáty boli podrobené analýze pomocou GPC, FTIR a UHPLC-UV-ESI-MS/MS, na základe čoho bolo možné bližšie charakterizovať získaný produkt. Tieto experimenty dokázali, že so stúpajúcou koncentráciou NaCl v médiu, klesá výťažok polysacharidov a ich produkciu nepodporujú ani vysoké koncentrácie MgSO4 a KCl v médiu. Hlavnou komponentou polysacharidov vyprodukovaných H. mediterranei, je manóza, no v závislosti od použitého média môže obsahovať aj glukózu, galaktózu, ribózu alebo N-acetylglukosamin.
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Screening of biotechnological potential of selected members of the genus Geobacillus and other related genuses
Kouřilová, Xenie ; Brázda, Václav (referee) ; Obruča, Stanislav (advisor)
This diploma thesis deals with selected thermophilic representatives of genera Geobacillus, Saccharococcus and Bacillus, taking screening of its biotechnological potential into account. Bacteria from the first two genera came from Czech and German collection of microorganisms, while bacteria of genus Bacillus were natural isolates. Researched strains were examined from a viewpoint of carbon source utilization and furthermore, production of biosurfactants, extracellular hydrolytic enzymes (protease, amylase, lipase, cellulase, xylanase), organic acids, antimicrobial agents and microbial plastics – polyhydroxyalkanoates was also tested. Bacteria S. thermophilus, G. uzenensis and G. zalihae evinced a substantial ability of biosurfactant production. Strains G. jurassicus, G. uzenensis, G. gargensis and G. lituanicus were capable of intensive production of all tested, technologically significant enzymes. Highest antimicrobial effects were reached with bacteria G. stearothermophilus and G. thermocatenulatus. Largest production of acetic acid was achieved with G. jurassicus and lactic acid with G. thermodenitrificans. Ability to produce polyhydroxyalkanoates was proved at genotype level by some cultures only, however at fenotype level, response was negative. On the contrary, bacteria genus Bacillus were able to produce polyhydroxyalkanoates, although in small amounts under given circumstances. With remaining researched metabolites, production ability was considerably lower, compared to genera Geobacillus and Saccharococcus.
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Screening of biotechnological potential of selected members of the genus Geobacillus and other related genuses
Kouřilová, Xenie ; Brázda, Václav (referee) ; Obruča, Stanislav (advisor)
This diploma thesis deals with selected thermophilic representatives of genera Geobacillus, Saccharococcus and Bacillus, taking screening of its biotechnological potential into account. Bacteria from the first two genera came from Czech and German collection of microorganisms, while bacteria of genus Bacillus were natural isolates. Researched strains were examined from a viewpoint of carbon source utilization and furthermore, production of biosurfactants, extracellular hydrolytic enzymes (protease, amylase, lipase, cellulase, xylanase), organic acids, antimicrobial agents and microbial plastics – polyhydroxyalkanoates was also tested. Bacteria S. thermophilus, G. uzenensis and G. zalihae evinced a substantial ability of biosurfactant production. Strains G. jurassicus, G. uzenensis, G. gargensis and G. lituanicus were capable of intensive production of all tested, technologically significant enzymes. Highest antimicrobial effects were reached with bacteria G. stearothermophilus and G. thermocatenulatus. Largest production of acetic acid was achieved with G. jurassicus and lactic acid with G. thermodenitrificans. Ability to produce polyhydroxyalkanoates was proved at genotype level by some cultures only, however at fenotype level, response was negative. On the contrary, bacteria genus Bacillus were able to produce polyhydroxyalkanoates, although in small amounts under given circumstances. With remaining researched metabolites, production ability was considerably lower, compared to genera Geobacillus and Saccharococcus.
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