| dc.contributor.advisor | Kutá Smatanová, Ivana | |
| dc.contributor.author | Mazur, Andrii | |
| dc.date.accessioned | 2026-01-06T11:55:47Z | |
| dc.date.available | 2026-01-06T11:55:47Z | |
| dc.date.issued | 2023 | |
| dc.date.submitted | 2023-03-13 | |
| dc.identifier.uri | https://dspace.jcu.cz/handle/20.500.14390/48694 | |
| dc.description.abstract | ANNOTATIOIN
Halogenated pollutants represent one of the greatest threats to nature.
Scientists have been searching for a solution to degradation of such compounds and
soil remediation for many years, and several suggestions have been completed until
know. One of the ways is the biodegradation of halogenated compounds by bacterial
enzymes, such as haloalkane dehalogenases, enzymes that cleave halogen bonds
and degrade this kind of compounds. The wide substrate specificity of these
enzymes pushes forward the research for new techniques to improve existing
dehalogenases and revealing new features in unique properties of novel types.
In this work, X-ray crystallographic analysis was successfully used for
structural-functional characterization of novel isolated and engineered haloalkane
dehalogenases. The first part is devoted to the characterization of the novel
haloalkane dehalogenase DpaA from Paraglaciecola agarilytica NO2. Unusual
feature of this enzyme is its property to form multimeric construction, whereas other
members of the same phylogenetic subfamily are present as monomers. We aim to
expand the knowledge of the structure and formation of the multimeric haloalkane
dehalogenases. The second part of the thesis deals with novel enzyme synthesized
by use of the ancestral sequence reconstruction from dehalogenases with the
broadest range substrate specificity LinB and DmbA. Armed with a new technique
the novel synthesized enzyme can enhance the effectiveness of the degradation of
halogenated environmental pollutants. | cze |
| dc.format | 90 p. (185 989 characters) | |
| dc.format | 90 p. (185 989 characters) | |
| dc.language.iso | xx | |
| dc.publisher | Jihočeská univerzita | cze |
| dc.rights | Bez omezení | |
| dc.subject | X-Ray crystallography | cze |
| dc.subject | protein crystallization | cze |
| dc.subject | haoalkane dehaogenases | cze |
| dc.subject | multimeric enzymes | cze |
| dc.subject | ancestral structure reconstruction. | cze |
| dc.subject | X-Ray crystallography | eng |
| dc.subject | protein crystallization | eng |
| dc.subject | haoalkane dehaogenases | eng |
| dc.subject | multimeric enzymes | eng |
| dc.subject | ancestral structure reconstruction. | eng |
| dc.title | Crystallographic studies of multimeric and
ancestral haloalkane dehalogenases | cze |
| dc.title.alternative | Crystallographic studies of multimeric and
ancestral haloalkane dehalogenases | eng |
| dc.title.alternative | Crystallographic studies of multimeric and
ancestral haloalkane dehalogenases | cze |
| dc.type | disertační práce | cze |
| dc.identifier.stag | 52174 | |
| dc.description.abstract-translated | ANNOTATIOIN
Halogenated pollutants represent one of the greatest threats to nature.
Scientists have been searching for a solution to degradation of such compounds and
soil remediation for many years, and several suggestions have been completed until
know. One of the ways is the biodegradation of halogenated compounds by bacterial
enzymes, such as haloalkane dehalogenases, enzymes that cleave halogen bonds
and degrade this kind of compounds. The wide substrate specificity of these
enzymes pushes forward the research for new techniques to improve existing
dehalogenases and revealing new features in unique properties of novel types.
In this work, X-ray crystallographic analysis was successfully used for
structural-functional characterization of novel isolated and engineered haloalkane
dehalogenases. The first part is devoted to the characterization of the novel
haloalkane dehalogenase DpaA from Paraglaciecola agarilytica NO2. Unusual
feature of this enzyme is its property to form multimeric construction, whereas other
members of the same phylogenetic subfamily are present as monomers. We aim to
expand the knowledge of the structure and formation of the multimeric haloalkane
dehalogenases. The second part of the thesis deals with novel enzyme synthesized
by use of the ancestral sequence reconstruction from dehalogenases with the
broadest range substrate specificity LinB and DmbA. Armed with a new technique
the novel synthesized enzyme can enhance the effectiveness of the degradation of
halogenated environmental pollutants. | eng |
| dc.date.accepted | 2023-06-19 | |
| dc.description.department | Přírodovědecká fakulta | cze |
| dc.thesis.degree-discipline | Biophysics | cze |
| dc.thesis.degree-grantor | Jihočeská univerzita. Přírodovědecká fakulta | cze |
| dc.thesis.degree-name | Ph.D. | |
| dc.thesis.degree-program | Biophysics | cze |
| dc.description.grade | Dokončená práce s úspěšnou obhajobou | cze |
| dc.contributor.referee | Brynda, Jiří | |
| dc.contributor.referee | Marek, Martin | |
| dc.contributor.referee | Urbanikova, Lubica | |
| dc.description.defence | <p><strong>Obhajoba disertační práce Andriie Mazura, 19.6. 13:30</strong></p>
<p>Předseda komise prof. Polívka představil členy komise včetně oponentů a konstatoval, že všichni členové komise a oponenti jsou osobně přítomni obhajobě. Následně představil uchazeče a shrnul jeho dosavadní působení. Konstatoval, že Andrii Mazur splnil všechny podmínky nutné pro zahájení obhajoby.</p>
<p>Předseda komise vyzval školitelku, prof. Kutou-Smatanovou, aby přečetla posudek školitele a vyjádřila se k aktivitám studenta v průběhu jeho doktorského studia. Hodnocení školitelky bylo bez připomínek a bez otázek na studenta.</p>
<p>Student následně představil výsledky své disertační práce shrnuté zejména ve třech publikovaných článcích, a nichž u dvou je Andrii Mazur první autor. Student při své prezentaci nevyužil limit 30 minut, prezentace byla výrazně kratší, ale lze konstatovat, že student ve své zkrácené prezentaci popsal klíčové výsledky dosažené během jeho doktorského studia.</p>
<p>V další části obhajoby proběhla diskuze oponentů se studentem. Všichni tři oponenti doporučují disertační práci k obhajobě, student na otázky oponentů reagoval bez problémů a prokázal solidní znalosti oboru souvisejícího s tématem jeho disertační práce. Všichni oponenti byli s reakcemi studenta na jejich otázky spokojeni. V závěru obhajoby kladli otázky členové komise a student opět prokázal solidní znalosti a přehled.</p>
<p>Komise v tajném hlasování udělila studentovi plný počet kladných hlasů (7).</p> | cze |
