Coordinator: Dr. B. Gravendeel
How are we genetically different from Neanderthalers? How many genes do organisms have? What fraction of our genome consists of genes? Do prokaryotes shop for genes? Why do salamanders have much more DNA per cell than we have? How does the genome of related species differ? How is the DNA of different individuals different? How well can one make predictions on health and personalized medicine from your DNA? With the advance of genome sequencing all these questions about DNA and evolution can, in principle, be answered. Starting from the basics (introns, extrons, gene families, recombination, QTLs, sequencing) we address these questions and ask what these new insights mean for ideas about health and evolution of species. In the practical you will use R to browse the genome looking for specific sequences, both at a basic and at an advanced level.
update knowledge on basic genetic mechanisms
overview of field of genomics
learn to extract DNA information from databanks
learn to apply DNA information for answering scientific questions
learn to evaluate differences between individuals or species using DNA info
read and evaluate scientific articles on DNA and evolution
Student is familiar with technical terms used in genomics
Student knows how genomes of major groups of organisms are organized
Student can use DNA information for answering questions about evolution and health.
From 2 October – 27 October 2017. First 3 weeks lectures, self study (DNA, genome prokaryotes, genome vertebrates, human evolution) and practical bioinformatics with R. Week 4 group projects. The detailed schedule will be placed on Blackboard.
Mode of instruction
Lectures, reading chapters from Lesk and Alberts, reading scientific articles, individual project (last week), presentation.
Three multiple choice tests and presentations of group projects.
Blackboard will be used for communication.
Strongly advised to buy as backup for students:
- Lesk AM (2017) Introduction to genomics. Oxford UP, third edition
Claverie J-M, Notredam C (2007) Bioinformatics for dummies (2nd edition) Wiley.
Alberts B et al. (2014) Molecular biology of the cell. 6th ed. Garland Science.
in Usis and enroll in Blackboard
Exchange and Study Abroad students, please see the Prospective students website for more information on how to apply.