Role signální dráhy HOG MAPK při osmotickém stresu u Saccharomyces cerevisiae
The role of HOG MAPK signaling pathway during osmotic stress in Saccharomyces cerevisiae
diploma thesis (DEFENDED)
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http://hdl.handle.net/20.500.11956/100322Identifiers
Study Information System: 34933
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- Kvalifikační práce [20130]
Author
Advisor
Referee
Janderová, Blanka
Faculty / Institute
Faculty of Science
Discipline
Teaching of Chemistry and Biology for Secondary Schools
Department
Department of Genetics and Microbiology
Date of defense
5. 6. 2007
Publisher
Univerzita Karlova, Přírodovědecká fakultaLanguage
Czech
Grade
Excellent
THE ROLE OF HOG MAPK SIGNALING PATHWAY DURING OSMOTIC STRESS IN SACCHAROMYCES CEREVISIAE Budding yeast (Saccharomyces cerevisiae) cells utilize a conserved mitogen-activated protein kinase (MAPK) signaling cascade (the high- osmolarity glycerol or HOG pathway) during conditions of increased external osmolarity. It evokes cellular responses necessary to permit continued growth. Activation of HOG pathway with Hog1 MAP kinase results in production of glycerol to prevent dehydration and up regulation of other Hog1 dependent genes because of cell adaptation. We were trying to find difference in translation between wild-type cells and two mutants of hog1 gene before and after 0,4 M NaCl osmotic stress (2, 6, 30 min). We used deletion mutant hog1Δ and hog1-as mutant with point mutation which allows inhibition of Hog1 MAPK during presence of specific AS inhibitor. We tested AS inhibitor by plate test and have found optimal concentration of 5 μM for blocking Hog1 MAPK in hog1-as mutant. Translation profiling proves that osmotic stress decreases translation in general. Hog1Δ mutant and hog1-as AS inhibited mutant behave similarly and their translation recovers slower than the wild-type's. That confirms that HOG1 gene is important for cell recovery from the osmotic stress. Microarray analysis shows that Hog1 dependent...