RV2BP_5GZ Genetics

Faculty of Education
Autumn 2017
Extent and Intensity
1/1/0. 4 credit(s). Type of Completion: zk (examination).
Teacher(s)
PhDr. Mgr. Lenka Adámková, Ph.D. (lecturer)
Mgr. et Mgr. Lenka Falk, Ph.D. (lecturer)
RNDr. Mgr. Alice Prokopová, Ph.D. (assistant)
Guaranteed by
doc. MUDr. Petr Kachlík, Ph.D.
Department of Physical Education and Health Education – Faculty of Education
Contact Person: Andrea Špačková
Supplier department: Department of Physical Education and Health Education – Faculty of Education
Timetable
Wed 9:20–10:05 učebna 32
  • Timetable of Seminar Groups:
RV2BP_5GZ/01: Wed 10:15–11:00 učebna 30, L. Falk
Course Enrolment Limitations
The course is only offered to the students of the study fields the course is directly associated with.
fields of study / plans the course is directly associated with
Course objectives
At the end of this course, students should be able to: -- explain basic genetics terms, Mendel´s and Morgan´s laws and basics of cytogenetics. -- explain general principles of heredity and processing of living organisms, occuring both at unicellular organisms and multicellular organisms. -- learn that the process of passing hereditary predispositions during the sexual reproduction process is a source of the variability of all diplonts´ traits. A student explains this fact on examples chosen on his/her own. --apply the genetics of organisms to genetics of populations and is able to emphasize the specifics of human traits heredity and the issue of human genome.
Syllabus
  • 1. Introduction: historical development and origin of genetics as a scientific discipline (importance of J. G. Mendel), current development and importance of genetics. Model objects in genetics. 2. Basic genetic terminology and principles of heredity, variability, gene, allele and their mutual relations, genotype, phenotype, genome, gene pool, allelia multipla. 3. Basics of cytogenetics – I. chromosome structure and importance, chromosomal determination of sex, chromosomal abnormalities. 4. Basics of cytogenetics – II. mitosis and meiosis course. Mutations – classification, detection, causes, consequences. 5. Basics genetic laws – I. Mendel’s phenotype laws and their deviations, hybridism – monohybridism, dihybridism, polyhybridism. Backcross, reciprocal cross. 6. Basic genetic laws – II. Mendel’s genotypic laws, causes of exceptions (i.e. theoretical sex ratio failures). 7. Morgan’s laws. Genetic bond – genetic mapping, hypothesis of crossing over mechanism, genetic interactions. 8. Heredity of quantitative attributes of man. Heredity of intelligence, talent. 9. Genetics of populations – I. panmictic population and autogamous population – characteristics. Hardy-Weinberg’s law. 10. Genetics of populations – II. selection, mutation, populations structure – genetic drift, migration.
Literature
  • NUSSBAUM, Robert L., Roderick R. MCINNES, Huntington F. WILLARD, James THOMPSON and Margaret Wilson THOMPSON. Klinická genetika : Thompson & Thompson. Translated by Petr Goetz. Vyd. 1. Praha: Triton, 2004, 426, lix. ISBN 8072544756. info
  • NEČAS, Oldřich. Obecná biologie : pro lékařské fakulty. 3. přeprac. vyd., v nakl. H. Jinočany: H & H, 2000, 554 s. ISBN 8086022463. info
  • NEČAS, Oldřich, Augustin SVOBODA, Milan HEJTMÁNEK, Roman JANISCH, Miroslav ČERVINKA, Karel LENHART and Zdeněk KOLÁŘ. Obecná biologie pro lékařské fakulty (General Biology for Medical Faculties). 3. přepracované, v H+H 1. Jinočany: H+H, 2000, 554 pp. ISBN 80-86022-46-3. info
  • SRŠEŇ, Štefan and Klára SRŠŇOVÁ. Základy klinickej genetiky a jej molekulárna podstata. Edited by Victor A. McKusick. 3. přeprac. a rozš. vyd. Martin: Osveta, 2000, 409 s. ISBN 8080630216. info
  • HATINA, Jiří and Brian D. SYKES. Lékařská genetika : problémy a přístupy. Vyd. 1. Praha: Academia, 1999, 296 s. ISBN 8020007008. info
  • HAVELKOVÁ, Marie. Analýza příčin drogové závislosti-II. Nové poznatky z molekulární genetiky (Analysis of reasons of drud addiction II. New ideas from molecular genetics). In Podpora a ochrana zdraví dítěte. Praha: Čes. lékařská společnost JEP, 1997, p. 116-209. 25/1. ISBN 80-85783-14-2. info
  • SRŠEŇ, Štefan and Klára SRŠŇOVÁ. Základy klinickej genetiky. 2. preprac. a rozš. vyd. Martin: Vydavateľstvo Osveta, 1995, 259 s. ISBN 8021704772. info
  • ROMANOVSKÝ, Alexej. Obecná biologie. 2. vyd. Praha: Státní pedagogické nakladatelství, 1988, 695 s. info
  • HAVELKOVÁ, Marie. Pravděpodobnost a její význam v dědičnosti. 3. přeprac. vyd. Brno: Univerzita J.E.Purkyně, 1988, 39 s. info
  • NEČÁSEK, Jan and Ivo CETL. Obecná genetika. 2. vyd. Praha: SPN, 1984, 565 s. URL info
  • FERÁK, Vladimír and Štefan SRŠEŇ. Genetika človeka. Bratislava: Slovenské pedagogické nakladateľstvo, 1981, 440 stran. info
Teaching methods
Theoretical preparation – lectures supported by chosen extracts from special video programmes. The topic of each lecture and recommended literature will be provided one week in advance. Each lecture will be finished by its revisionm, through colloquy students will discuss new terms and context which were presented and explained during the lecture.
Assessment methods
The whole course is finished by an oral exam consisting of two parts: a) practical part – a student solves and defends a particular genetic model example which he/she has selected from a topic list of 95 items, b) theoretical part– a student answers and explains two theoretical topics from general genetics which he/she has selected from 40 double topics list.
Language of instruction
Czech
Follow-Up Courses
Further Comments
Study Materials
The course is taught annually.
Teacher's information
http://www.ped.muni.cz/whealthedu/
The course is also listed under the following terms Autumn 2014, Autumn 2015, Autumn 2016, Autumn 2018, Autumn 2019.
  • Enrolment Statistics (Autumn 2017, recent)
  • Permalink: https://is.muni.cz/course/ped/autumn2017/RV2BP_5GZ