GEN-11806 Fundamentals of Genetics

Course

Credits 6.00

Teaching methodContact hours
Lecture16
Tutorial28
Practical40
Course coordinator(s)dr. ir. AJM Debets
Lecturer(s)dr. HGJM Franssen
dr. O Madsen
dr. ir. JWM Bastiaansen
dr. ir. AJM Debets
dr. ir. HJ van Eck
dr. ir. SE Schoustra
Examiner(s)dr. ir. AJM Debets

Language of instruction:

NL and/or EN

Assumed knowledge on:

CBI-10306 Cell Biology or CBI-10806 Introduction to Cell Biology

Continuation courses:

GEN-30306 Genetic Analysis, Trends and Concepts; GEN30806 Population and Quantitative Genetics

Contents:

- the Genetic and Molecular Biological Approach to Biology;
- single-gene inheritance;
- independent assortment of genes;
- mapping eukaryote chromosomes by recombination;
- gene interaction;
- transcription, processing and translation of RNA in Eukaryotes;
- regulation of eukaryotic gene expression;
- genomes and genomics;
- large-scale chromosomal changes;
- gene isolation and manipulation;
- population genetics;
- inheritance of complex traits.

Learning outcomes:

After successful completion of this course students are expected to be able to:
- explain the basic genetic and molecular biological processes in eukaryotes: transmission of genetic information, the relationship between genotype and phenotype, the regulation and expression of genes, the generation of variation, the organization of genomes and genes;
- summarize the basic genetic methods: how genomes are explored, how populations are studied, how quantitative characters are studied, how genetics is applied in life sciences;
- recall tools and methods to study gene expression and to isolate, analyse and manipulate genes;
- recall and explain general genetic and molecular biological terms as these are described in the appropriate chapters of the textbook (in other words, to be able to understand and to speak the genetic and molecular biological language at a basic level);
- explain and interpret genetic experiments and observations, e.g. to recognize and analyse patterns of inheritance, gene interactions, consequences of chromosomal changes, genetic changes in populations, and quantitative characters;
- analyse and judge the use of genetics in societal questions.

Activities:

- self-study of the textbook with instructions on studying the main figures;
- do crossword puzzles about the key terms;
- make quizzes on Brightspace;
- attend lectures (introduction to the subjects);
- participate in tutorials on solving genetic problems;
- perform computer exercises (case studies) to discover and analyse genetic and molecular biological principles; 
- write brief reports on the case studies.

Examination:

- written closed book exam with open questions (accounts for 80% or 100% of the final mark, minimum mark required is 5).
- participation mark: Active participation and case reports (20%).
When the mark for the written test is higher than the participation mark the final mark will be based on the written test only.

Literature:

Textbook: Griffiths [et al.]. An Introduction to Genetic Analysis, 12th ed. (Studystore).
Student guide: description of the details of the course, studying the figures questions and key term puzzles. (Studystore)
Lecture notes (ppt's), weblectures, animations, quizzes and answers to exercises and problems will be published on Brightspace.

ProgrammePhaseSpecializationPeriod
Compulsory for: BBIBiologyBSc3WD
BASAnimal SciencesBSc2MO
BPWPlant SciencesBSc3WD