Genetics

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Genetics

Code: 240544
ECTS: 7.0
Lecturers in charge: prof. dr. sc. Vlatka Zoldoš
prof. dr. sc. Mirjana Pavlica
Lecturers: dr. sc. Marija Klasić - Practicum
dr. sc. Anika Mijakovac - Practicum

izv. prof. dr. sc. Aleksandar Vojta - Lectures
Take exam: Studomat
Load:

1. komponenta

Lecture typeTotal
Lectures 45
Practicum 45
* Load is given in academic hour (1 academic hour = 45 minutes)
Description:
COURSE OBJECTIVES
To learn basic rules of inheritance in cells, individuals and populations; to understand the molecular mechanisms by which genes control growth, development and appearance of an organism.

LEARNING OUTCOMES
1. To gain knowledge on the rules of inheritance in cells, individuals and populations.
2. To understand molecular mechanisms by which genes control growth, development and appearance of an organism.
3. To be able to integrate knowledge of inheritance from the biochemistry of the genetic material to inheritance patterns and horizontal and vertical transfer of genes in the population
4. To explain how mutations affect survival and evolution of species
5. To explain the importance of cloning and genetic manipulation
6. To analyse and solve genetic problems


COURSE CONTENT
LECTURES
1. Science of genetics: basic concept; areas of genetics, genetic discoveries. Mendelism and The Chromosomal Theory; rules of inheritance. Allelic interactions: dominance, incomplete dominance and codominance. 2. Genotyping interactions: epistasis. One Gene One Enzyme Hypothesis; Multiple alleles. 3. Sex determination; sex linkage; dosage compensation: Lyon hypothesis. 4. Linkage and mapping in eukaryotes. 5. Cytogenetics: variation in chromosome number. Mechanism and consequences. 6. Variation in chromosomal structure. Mechanism and consequences. 7. Molecular genetics: chemistry of the gene; gene expression: transcription and translation in prokaryotes and eukaryotes. 8. Gene mutations; mutation rates; point mutations, detection; DNA repair. Spontaneous and induced mutagenesis. 9. Linkage and mapping in prokaryotes and bacterial viruses. 10. Gene expression: control in prokaryotes. 11. The eukaryotic chromosome. 12. Gene expression: control in eukaryotes. 13. Nonmendelian inheritance. 14. Quantitative and Evolutionary genetics. Population genetics.15. Recombinant DNA technology.

EXERCISES
Include practical work in some topics with developing competences for solving and analysing genetic problems.

Laws of inheritance
Linkage in eukaryotes
Fruit fly
Multiple alleles
Sex linkage
Genetics of microorganisms
Cytogenetics
Human karyotype
Gene expression
Population genetics
Cytoplasmic inheritance
Literature:
Prerequisit for:
Enrollment :
Passed : Cell and Molecular Biology
3. semester
Mandatory course - Regular study - Biology
Consultations schedule: