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Last update: Hladíková Jana (13.12.2017)
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Last update: Macek Tomáš prof. Ing. CSc. (24.01.2018)
Students will know: how to increase the safety of food sources, to find a proper plant or combination of organisms for some particular application on biotechnology, decrease or influence the effects of stress on plants, design preparation or detection method for new genetically modified plants, understand interdependence of different biological methods of decontamination of the environment with the help of vegetation.
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Last update: Macek Tomáš prof. Ing. CSc. (25.01.2018)
Buchanan B.B., Gruissem W., Jones R.L., Biochemistry & molecular biology of plants, American Society of Plant Physiologists, Rockville, 2015 Voet D.,Voet J.G., Biochemistry, John Wiley & Sons, New York, 2004, 0-471-39223-5 Kodíček M., Valentová O., Hynek R. Biochemie: chemický pohled na biologický svět. VŠCHT Praha 2015 Macková M., Dowling D., Macek T., Phytoremediation and Rhizoremediation, Theoretical Background, Springer, Berlin, 2006, 978-1-4020-4952-1 Macek T., Kotrba P., Svatos A., Novakova M., Demnerova K., and Mackova M., Novel roles for genetically modified plants in environmental protection. Trends in Biotechnology 26, 146-152, (2008) Vodrážka Z., Biochemie, Academia, 1996, 80-200-0600-1 Macek, T., Macková, M., Káš, J.: Exploitation of plants for the removal of organics in environmental remediation. Biotechnol. Advances (2000), 18 (1), 23-35 Kodíček M. Biochemické pojmy, výkladový slovník, VŠCHT Praha |
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Last update: Hladíková Jana (13.12.2017)
www.scopus.com http://apps.webofknowledge.com http://www.phytosociety.org |
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Last update: Macek Tomáš prof. Ing. CSc. (24.01.2018)
Participation at lectures, preparation and presentation of info concerning newest findings, preparation to and passing of the exam. |
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Last update: Macek Tomáš prof. Ing. CSc. (15.02.2018)
1. Introduction, characteristics of the course, evaluation. Specificities of plant metabolism, plant cell structure. Reviews prepared by students (prof. Macek) 2. Anatomy and morphology of plants, water regime (doc. Burketová) 3. Ontogenetic development, cultures in vitro, embryogenesis, plant regeneration, application in breeding and multiplication (prof. Macek) 4. Phytohormones , growth regulators and other physiologically active compounds in plants (prof. Macek) 5. Regulation of gene expression in plants and during their development, genes in organelles (Dr. Janda) 6. Photosynthesis, light and dark phase, CO2 fixation (prof. Macek) 7. Calvin cycle, C3, C4 a CAM plants, photorespiration (prof. Macek) 8. Metabolism of monosaccharides, polysaccharides and lipids (doc. Novotná) 9. Metabolism of nitrogen, sulphur in plants, nitrogen fixation and biosynthesis of amino acids (prof. Macek) 10. Secondary metabolism in plants (dr. Angelini) 11. Signal transduction and abiotic stress in plants (prof. Macek) 12. Biotic stress and mechanisms of plant resistance (doc. Burketová) 13. Gene transfer in plants, GMO, preparation of transgenic plants, application in biotechnology (prof. Macek) 14. Detoxication mechanisms in plants, herbicides, uptake and accumulation of toxic compounds, phytoremediation (prof. Macek) |
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Last update: Macek Tomáš prof. Ing. CSc. (25.01.2018)
Biology Biochemistry |
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Last update: Macek Tomáš prof. Ing. CSc. (25.01.2018)
Active participation in lectures, written and oral part of exam |
Teaching methods | ||||
Activity | Credits | Hours | ||
Účast na přednáškách | 1.5 | 42 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 0.7 | 20 | ||
Příprava na zkoušku a její absolvování | 1.8 | 50 | ||
4 / 4 | 112 / 112 |