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Lecturer(s)
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Course content
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1. Introduction into genetics and heredity study. 2. Mendelian rules of heredity. 3. Gene interactions. 4. Genetic pole determination. 5. Gene linkage, genetic maps and methods of gene mapping. 6. Genetics of quantitative traits. 7. Molecular and biochemical genetics - genetic code, replication, transcription, translation, gene expression and its regulation. 8. Mutagens, mutagenesis, reparation of nucleic acids damage. 9. Carcinogens and carcinogenesis. Teratogens and teratogenesis. 10. Mitochondrial and chloroplast genome. 11. Population genetics. 12. Evolution genetics. 13. Genetics applied in agriculture and industry. Gene engineering, GMO. 14. Genetics applied in veterinary and human medicine.
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Learning activities and teaching methods
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unspecified
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Learning outcomes
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The aim of the course is to provide essential information on classical (Mendelian) and modern genetics, molecular, biochemical and cellular genetics, population and evolution genetics, ecogenetics, mutation genetics, genetics of quantitative traits, genetics of viruses, bakteria, fungi, plants, animals and man, genetic engineering and transgenosis. Laboratory exercising of the selected topics and methods are included, too. Introduction to Biology.
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Prerequisites
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unspecified
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Assessment methods and criteria
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unspecified
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Recommended literature
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Alberts B. et al. Základy buněčné biologie.. 1998.
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Hatina J., Sykes B. Lékařská genetika.. 1999.
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Ipser J. Úlohy a praktická cvičení z genetiky.. 1991.
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Kapras J. a kol. Kapitoly z lékařské biologie a genetiky I. a II. díl.. 1998.
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Nečásek J. a kol. Obecná genetika.. 1979.
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Rosypal S. a kol. Nový přehled biologie.. 2003.
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Rosypal S., Doškař J. Úvod do molekulární biologie I-III.. 1997.
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Vojtíšková M. Klinická a molekulární genetika.. 1999.
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Vondrejs V., Storchová Z. Genové inženýrství I-II.. 1999.
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