BIO321 Population Genetics and Molecular Evolution
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Showing course contents for the educational year starting in 2014 .
Course responsible: Odd Arne Rognli, Siri Fjellheim
Teachers: Siri Fjellheim
ECTS credits: 10
Faculty: Department of Plant Sciences
Teaching language: EN
Limits of class size:
Minimum 5 students
Teaching exam periods:
This course starts in Autumn parallel. This course has teaching/evaluation in Autumn parallel, .
Course frequency: Annually
First time: 2003H
Topics: Genetic Variation The Hardy-Weinberg Principle Recombination, Linkage and Disequilibrium Basic Models for Natural Selection Mutation Genetic Drift Inbreeding and Non-random Mating Population Subdivision and Gene Flow Molecular Population Genetics Molecular Evolution and Phylogenetics Advanced Models for Natural Selection Quantitative Genetics.
The students should be able to understand the dynamics of the evolutionary changes that happen at the molecular level, the evolutionary forces behind such changes and the evolutionary effects of different molecular mechanisms on genomes, genes and gene products. The students should also gain theoretical insight and practical skills in methods used in comparative and phylogenetic analyses based on molecular data. The students should develop a critical approach towards the interpretation of this type of data, and a level of knowledge sufficient to understand cutting edge research articles on the subject. The students should be able to plan their own research on the subject and apply relevant methods in order to analyse and present the results.
Lectures. Student presentations of selected seminal papers. Two compulsory assignments/computer exercises have to be handed in. Calculations/colloquia orgainzed by students.
A course website will be developed and used actively to distribute information and links to computer programs, websites and data.
Textbook: Philip W. Hedrick: Genetics of populations, 2011, Jones and Bartlett Publishers, LLC.
BIO120 - Introduction to Genetics, MATH100 - Introductory Mathematics, STAT100 - Statistics.
BIO211 - Molecular Biology, BIO220 - Eukaryotic Molecular Biology
Presentation of the selected article and the compulsory assignments must be approved before the student can attend the final oral examination.
Oral examination counts 100%.
Lectures: 24 hours. Student presentations of selected papers: 24 hours. Individual study/colloquiums: 252 hours.
Special requirements in Science
Reduction of credits:
Type of course:
Lectures: 2 hours per week for 12 weeks. Student presentations: 2 hours per week for 12 weeks.
An external examiner will take part in the oral examination
Examination details: Oral exam: A - E / Ikke bestått