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Influence of second and third generation sequencers on cgMLST analysis of closely-related bacterial strains.
Slavíček, David ; Sedlář, Karel (referee) ; Nykrýnová, Markéta (advisor)
This bachelor thesis is about influence of sequncers of second and third generationon cgMLST analysis of bacterial genome. In the theoretical section were described selected sequencers of second and third generation and genome assembly principles. In the practical part were assembled six genomes of Klebsiella pneumoniae bacteria from University Hospital Brno. The genomes were sequenced each on two different sequencers, Illumina Miseq and Oxford Nanopore Technologies Minion. The genomes were assembled. Suitable genes were selected and insufficient quality genomes removed for the cgMLST analysis. The cgMLST analysis was performed and the results are shownin graphs.
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Evaluation of numerical representations suitability for overlap detection
Pleskačová, Barbora ; Maděránková, Denisa (referee) ; Jugas, Robin (advisor)
The bachelor´s thesis is focused on the evaluation of numerical representations suitability for overlap detection. Introductory part deals with description of deoxyribonucleic acid structure. The next part discribes sequencing methods and genome assembly techniques. Following part deals with numerical representations that convert DNA sequences into numerical form. Based on similarity metrics, the use of these representations is tested for the detection of overlaps between DNA reads. In the practical part of the thesis an algorithm for overlap detection is designed and implemented using numerical representations. The algorithm is then tested on data.
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Signal processing based methods for genome assembly refinement
Jugas, Robin ; Provazník, Ivo (referee) ; Sedlář, Karel (advisor)
The diploma thesis deals with sequencing methods and genome assembly methods including usage of numerical representations. The theoretical part of thesis describes the history of DNA research, generations of sequencing methods, the assembly methods themselves and definiton of numerical representations. Numerical represenatations serve to convert character form of DNA to numerical form and so allow to use digital signal processing methods. There is an algorithm for genome assembly using numerical represenatation proposed in thesis, which is later tested at sequence data.
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Influence of second and third generation sequencers on cgMLST analysis of closely-related bacterial strains.
Slavíček, David ; Sedlář, Karel (referee) ; Nykrýnová, Markéta (advisor)
This bachelor thesis is about influence of sequncers of second and third generationon cgMLST analysis of bacterial genome. In the theoretical section were described selected sequencers of second and third generation and genome assembly principles. In the practical part were assembled six genomes of Klebsiella pneumoniae bacteria from University Hospital Brno. The genomes were sequenced each on two different sequencers, Illumina Miseq and Oxford Nanopore Technologies Minion. The genomes were assembled. Suitable genes were selected and insufficient quality genomes removed for the cgMLST analysis. The cgMLST analysis was performed and the results are shownin graphs.
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Evaluation of numerical representations suitability for overlap detection
Pleskačová, Barbora ; Maděránková, Denisa (referee) ; Jugas, Robin (advisor)
The bachelor´s thesis is focused on the evaluation of numerical representations suitability for overlap detection. Introductory part deals with description of deoxyribonucleic acid structure. The next part discribes sequencing methods and genome assembly techniques. Following part deals with numerical representations that convert DNA sequences into numerical form. Based on similarity metrics, the use of these representations is tested for the detection of overlaps between DNA reads. In the practical part of the thesis an algorithm for overlap detection is designed and implemented using numerical representations. The algorithm is then tested on data.
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|
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Signal processing based methods for genome assembly refinement
Jugas, Robin ; Provazník, Ivo (referee) ; Sedlář, Karel (advisor)
The diploma thesis deals with sequencing methods and genome assembly methods including usage of numerical representations. The theoretical part of thesis describes the history of DNA research, generations of sequencing methods, the assembly methods themselves and definiton of numerical representations. Numerical represenatations serve to convert character form of DNA to numerical form and so allow to use digital signal processing methods. There is an algorithm for genome assembly using numerical represenatation proposed in thesis, which is later tested at sequence data.
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