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GAL4/UAS binary system as a toll for the study of gene function
Soukup, Tomáš ; Krylov, Vladimír (advisor) ; Půta, František (referee)
GAL4/UAS system is a bipartite gene engineering tool, enabling ectopic expression in temporal and tissue-specific manner in vivo. Design of this technique is based on a mechanism of gene transcription, which was elucidated of large portion by an experimental study of Saccharomyces cerevisiae regulation of metabolic control circuit for processing galactose. It is possible to generate hundreds of stable transgenic lines by independent incorporation of the gene for the transcription factor Gal4p and its binding sequence (UAS), respectively, by using transposible or specific-sequence integration techniques. An individual organism, manifesting ectopic expression in suitable, adjustable conditions, can be obtained by cross breeding individual of GAL4 lines with individual from UAS line. This thesis represents a synthesis of the basic principles of GAL4/UAS system and its variants, particularly adapted to the needs of genetic manipulation of model organisms Drosophila melanogaster and Danio rerio. Additionally, this text summarizes the connection GAL4/UAS system with other techniques and briefly highlights the potential for practical applications mainly in research area of neurology. Powered by TCPDF (www.tcpdf.org)
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GAL4/UAS binary system as a toll for the study of gene function
Soukup, Tomáš ; Krylov, Vladimír (advisor) ; Půta, František (referee)
GAL4/UAS system is a bipartite gene engineering tool, enabling ectopic expression in temporal and tissue-specific manner in vivo. Design of this technique is based on a mechanism of gene transcription, which was elucidated of large portion by an experimental study of Saccharomyces cerevisiae regulation of metabolic control circuit for processing galactose. It is possible to generate hundreds of stable transgenic lines by independent incorporation of the gene for the transcription factor Gal4p and its binding sequence (UAS), respectively, by using transposible or specific-sequence integration techniques. An individual organism, manifesting ectopic expression in suitable, adjustable conditions, can be obtained by cross breeding individual of GAL4 lines with individual from UAS line. This thesis represents a synthesis of the basic principles of GAL4/UAS system and its variants, particularly adapted to the needs of genetic manipulation of model organisms Drosophila melanogaster and Danio rerio. Additionally, this text summarizes the connection GAL4/UAS system with other techniques and briefly highlights the potential for practical applications mainly in research area of neurology. Powered by TCPDF (www.tcpdf.org)
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Gene expression reporters in \kur{Drosophila melanogaster}.
ŠTROS, Jiří
Drosophila melanogaster is a widely used model organism in genetic research and in a number of other disciplines associated with medical and biotechnological issues. The first part of this thesis presents a review of some basic genetic tools and gene expression reporters used in D. melanogaster research with emphasis on the use of GFP reporter. The second part presents a description and results of my experimental work aimed at the reporter construct consisting of adenosine deaminase gene (ADGF-A) and GFP marker. When using gene expression reporters such as GFP, it is important to know whether the presence of reporter does not affect the studied process. The experiment described in this study tested whether the fusion protein consisting of GFP and adenosine deaminase is fully functional enzyme or whether the enzyme activity is influenced by the presence of fluorescent tag. Results of this work support the usefulness of using the fusion construct as a gene expression reporter.
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