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Analysis of C. necator genome changes after evolutionary adaptation
Kroupa, Štěpán ; Obruča, Stanislav (referee) ; Brázda, Václav (advisor)
This bachelor’s thesis deals with analysis of mutations in bacterial populations of Cupriavidus necator H16 evolved in distinct stress conditions. This analysis was performed by processing data from the genome sequencing method „Next Generation Sequencing“, outsourced through the company DNALink. A list of mutations for each adapted population was constructed through bioinformatic methods. These mutations were then associated with specific areas of the reference Cupriavidus necator H16 genome from NCBI and analysed according to available information. Finally, the effect of these mutations on production of storage polymers polyhydroxyalkanoates was discussed.
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The use of parallel sequencing methods in microbiology.
Pavlíková, Magdaléna ; Najmanová, Lucie (advisor) ; Vopálenský, Václav (referee)
The thesis describes the history of development of sequencing methods with special focus on the modern effective parallel sequencing methods and their application in microbiology. The development and improvements of sequencing systems lead to the acceleration of the process and considerable decrease of price, which consequently allow wider spectrum of applications. Each of the sequencing systems has its characteristic features including drawbacks stemming from the principle of the respective method. Not every method suitable for all the applications. In the thesis the sequencing methods are compared and examined with respect to their appropriateness for certain application fields in microbiology. The currently available sequencing methods are usually categorized into three "generations", distinguished by sets of typical features. First generation methods include the systems of Sanger and Maxam-Gilbert; "next generation" is represented by methods 454, Illumina, SOLiD and Helicos; and finally SMRT, Ion Torrent and the commercially not yet available nanopore sequencing are usually called "next-next generation". Now the sequencing becomes a standard technology of molecular biology, not only in the basic microbiological research, but it is also widely applied in medicine (quick identification of patogenes,...
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Analysis of C. necator genome changes after evolutionary adaptation
Kroupa, Štěpán ; Obruča, Stanislav (referee) ; Brázda, Václav (advisor)
This bachelor’s thesis deals with analysis of mutations in bacterial populations of Cupriavidus necator H16 evolved in distinct stress conditions. This analysis was performed by processing data from the genome sequencing method „Next Generation Sequencing“, outsourced through the company DNALink. A list of mutations for each adapted population was constructed through bioinformatic methods. These mutations were then associated with specific areas of the reference Cupriavidus necator H16 genome from NCBI and analysed according to available information. Finally, the effect of these mutations on production of storage polymers polyhydroxyalkanoates was discussed.
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The use of parallel sequencing methods in microbiology.
Pavlíková, Magdaléna ; Najmanová, Lucie (advisor) ; Vopálenský, Václav (referee)
The thesis describes the history of development of sequencing methods with special focus on the modern effective parallel sequencing methods and their application in microbiology. The development and improvements of sequencing systems lead to the acceleration of the process and considerable decrease of price, which consequently allow wider spectrum of applications. Each of the sequencing systems has its characteristic features including drawbacks stemming from the principle of the respective method. Not every method suitable for all the applications. In the thesis the sequencing methods are compared and examined with respect to their appropriateness for certain application fields in microbiology. The currently available sequencing methods are usually categorized into three "generations", distinguished by sets of typical features. First generation methods include the systems of Sanger and Maxam-Gilbert; "next generation" is represented by methods 454, Illumina, SOLiD and Helicos; and finally SMRT, Ion Torrent and the commercially not yet available nanopore sequencing are usually called "next-next generation". Now the sequencing becomes a standard technology of molecular biology, not only in the basic microbiological research, but it is also widely applied in medicine (quick identification of patogenes,...
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