Getting familiar with functional genomics, i.e. application of global (genome-wide or system-wide) experimental approaches to assess gene and protein functions and interactions. Knowledge of analysis methods of functional genomics data and skills to perform simple analyses.
Contents
Genome-wide sequence data (genomics), and their annotation, genome browsers; gene and genome variations; DNA microarrays; proteomics. The main focus is in bioinformatic methods, but the course provides some material to cover the experimental background, too.
Teaching methods
Teaching method
Contact
Online
Independent work
0 h
80 h
Independent work (at least 80 h) on the internet course guided by on-line tutoring. Work and learning must be documented in a learning diary (within the course tools).
Teaching language
English
Modes of study
Independent work (at least 80h) on the internet course, guided by on-line tutoring. Your work and learning must be documented in a learning diary (within the course tools).
Evaluation
Pass/fail.
Recommended year of study
1st year. Continuous registration during terms. The course is open for self-study during holidays, too.
Study materials
Course material on the internet; selected scientific journal articles. Suggested reading: Bioinformatics and Functional Genomics (2003), Jonathan Pevsner, Wiley.