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Gene order conservation in bacterial genomes
Martinková, Tereza ; Sedlář, Karel (referee) ; Maděránková, Denisa (advisor)
Theoretical part of the thesis deals with basic concepts such as bacterial genome, comparative genomics and mainly synteny blocks. Here is explained what synteny is and what is its importance. In the theoretical part, the GenBank format is also mentioned, its content and usage. The practical part is focused on searching similarities in DNA sequences of reference bacteria with selected bacteria, their sorting by means of greedy algorithm and visualization of similarities using phylogenetic tree.
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Comparison of genomes by synteny block analysis
Pavel, Tomáš ; Škutková, Helena (referee) ; Maděránková, Denisa (advisor)
The theoretical part of this bachelor thesis is aimed at basics of genetics. Term of gene and mutation are introduced in this section. There are gene and chromosome mutations mentioned and described. Following section is devoted to comparative genomics and especially to synteny. There is described what the synteny actually is and how the synteny arises. The end of the theoretical part of this thesis is about the evolution and there are described ways of sorting permutation vectors. The practical part of this bachelor thesis includes description of developed software. Output of this software is a dot-plot which shows detected synteny blocks. Indexes of these blocks are listed in GUI. The second important output is number of permutation steps. This number determines evolutionary distance between two analysed DNA sequences. The very last section is aimed at analyse of synthetic and real DNA sequences.
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Gene order conservation in bacterial genomes
Martinková, Tereza ; Sedlář, Karel (referee) ; Maděránková, Denisa (advisor)
Theoretical part of the thesis deals with basic concepts such as bacterial genome, comparative genomics and mainly synteny blocks. Here is explained what synteny is and what is its importance. In the theoretical part, the GenBank format is also mentioned, its content and usage. The practical part is focused on searching similarities in DNA sequences of reference bacteria with selected bacteria, their sorting by means of greedy algorithm and visualization of similarities using phylogenetic tree.
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Evolution of RAYT/REP system in Stenotrophomonas
Staněk, Tadeáš ; Nunvář, Jaroslav (advisor) ; Zahradník, Jiří (referee)
REP (repetitive extragenic palindromes) are short DNA motifs found in the intergenic regions of many bacteria, typically in the hundreds of copies per genome. Unable to mobilize on their own, REP are propagated by RAYT (REP-associated tyrosine transposase). Stenotrophomonas are G- bacteria with a broad ecological niche, belonging to the Gammaproteobacteria. RAYT/REP systems are widespread in them, with over 132,000 REP found in 102 strains. Several classes of REP coexist in the genomes, the presence of associated RAYT is essential for high REP abundance. REP are localised in "REP loci", a series of intergenic regions with high evolutionary dynamics - the number, sequence, and orientation of REP vary at a given locus. In addition to genomic islands, REP are absent from the replication termination site, a region showing non-standard evolutionary dynamics (variable number and order of genes), probably related to chromosome segregation. Stenotrophomonas are insertion sequences (IS) rich. 35 unique IS were identified and their insertion target was verified. Ten IS insert into REP, and four other target YPAL (Yersinia palindromic elements), DNA motifs so far known only in the genus Yersinia. A total of 14 out of 35 IS in Stenotrophomonas target intergenic motifs, while their copy number accounts for 75%...
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Functional genomic and pharmacogenomic analysis of metabolic syndrome aspects
Krupková, Michaela ; Šeda, Ondřej (advisor) ; Haluzík, Martin (referee) ; Polák, Jan (referee)
Metabolic syndrome is a prevalent disease characterized by concurrent manifestation of insulin resistance, obesity, dyslipidemia, hypertension and other hemodynamic and metabolic disorders. It has multifactorial type of inheritance and its resultant phenotype is determined by both environmental and genetic factors as well as their interactions. That is the main reason why comprehensive analysis of the genetic component of this syndrome is complicated in human population. Genetically designed experimental animal models are significant tools for analysis of genetic architecture of human complex conditions including the metabolic syndrome. The aim of this Thesis is utilization of functional and comparative genomic tools to uncover pathogenesis of metabolic syndrome aspects and their genetic determinants. We also studied pharmacogenetic interactions of these genetic determinants with drugs affecting particular components of the metabolic syndrome. Establishing and utilizing several genetically designed congenic rat strains, we undertook four different research projects focusing on pharmacogenetic interaction of all-trans retinoic acid and ondansetron with differential segment of rat chromosome 8, pharmacogenetic interaction of differential segment of rat chromosome 4 and dexamethasone, determining Plzf...
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Gene order conservation in bacterial genomes
Martinková, Tereza ; Sedlář, Karel (referee) ; Maděránková, Denisa (advisor)
Theoretical part of the thesis deals with basic concepts such as bacterial genome, comparative genomics and mainly synteny blocks. Here is explained what synteny is and what is its importance. In the theoretical part, the GenBank format is also mentioned, its content and usage. The practical part is focused on searching similarities in DNA sequences of reference bacteria with selected bacteria, their sorting by means of greedy algorithm and visualization of similarities using phylogenetic tree.
|
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Gene order conservation in bacterial genomes
Martinková, Tereza ; Sedlář, Karel (referee) ; Maděránková, Denisa (advisor)
Theoretical part of the thesis deals with basic concepts such as bacterial genome, comparative genomics and mainly synteny blocks. Here is explained what synteny is and what is its importance. In the theoretical part, the GenBank format is also mentioned, its content and usage. The practical part is focused on searching similarities in DNA sequences of reference bacteria with selected bacteria, their sorting by means of greedy algorithm and visualization of similarities using phylogenetic tree.
|
|
|
Functional genomic and pharmacogenomic analysis of metabolic syndrome aspects
Krupková, Michaela ; Šeda, Ondřej (advisor) ; Haluzík, Martin (referee) ; Polák, Jan (referee)
Metabolic syndrome is a prevalent disease characterized by concurrent manifestation of insulin resistance, obesity, dyslipidemia, hypertension and other hemodynamic and metabolic disorders. It has multifactorial type of inheritance and its resultant phenotype is determined by both environmental and genetic factors as well as their interactions. That is the main reason why comprehensive analysis of the genetic component of this syndrome is complicated in human population. Genetically designed experimental animal models are significant tools for analysis of genetic architecture of human complex conditions including the metabolic syndrome. The aim of this Thesis is utilization of functional and comparative genomic tools to uncover pathogenesis of metabolic syndrome aspects and their genetic determinants. We also studied pharmacogenetic interactions of these genetic determinants with drugs affecting particular components of the metabolic syndrome. Establishing and utilizing several genetically designed congenic rat strains, we undertook four different research projects focusing on pharmacogenetic interaction of all-trans retinoic acid and ondansetron with differential segment of rat chromosome 8, pharmacogenetic interaction of differential segment of rat chromosome 4 and dexamethasone, determining Plzf...
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Comparison of genomes by synteny block analysis
Pavel, Tomáš ; Škutková, Helena (referee) ; Maděránková, Denisa (advisor)
The theoretical part of this bachelor thesis is aimed at basics of genetics. Term of gene and mutation are introduced in this section. There are gene and chromosome mutations mentioned and described. Following section is devoted to comparative genomics and especially to synteny. There is described what the synteny actually is and how the synteny arises. The end of the theoretical part of this thesis is about the evolution and there are described ways of sorting permutation vectors. The practical part of this bachelor thesis includes description of developed software. Output of this software is a dot-plot which shows detected synteny blocks. Indexes of these blocks are listed in GUI. The second important output is number of permutation steps. This number determines evolutionary distance between two analysed DNA sequences. The very last section is aimed at analyse of synthetic and real DNA sequences.
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