BIN210 Introduction to Bioinformatics
Showing course contents for the educational year 2022 - 2023 .
Course responsible: Torgeir Rhodén Hvidsten, Lars Gustav Snipen
ECTS credits: 10
Faculty: Faculty of Chemistry, Biotechnology and Food Science
Teaching language: NO
Limits of class size:
Teaching exam periods:
This course starts in Spring parallel. This course has teaching/evaluation in Spring parallel.
Course frequency: Annually
First time: Study year 2004-2005
B-BIOTEK, M-BIOTEK, M-KB, M-MAT, M-BIAS.
Introduction to sequences and databases. Sequence alignments - theory and practice. Database search - BLAST and similar tools. Models of biological sequences. Phylogeny. Gene expression analysis. The topics will be introduced approximately in this order, through weekly lectures and practical computer exercises. Knowledge of bioinformatics increases our understanding of the world we live in and helps the development of sustainable societies.
KNOWLEDGE: Students will get a basic knowledge of sequence comparions, i.e. alignments, sequence models and phylogeny. They wil also get a basic knowledge of the analysis of gene expression data. They will be able to explain the principles on which the methods rely.
SKILLS: Emphasis will be put on teaching students to use general data analysis tools, including basic programming in R, and understand the output of the different programs that will be used.
GENERAL COMPETENCE: Be able to use basic bioinformatic tools, both those we have used in this course as well as other similar tools.
Lectures and practical computer exercises.
Lecture notes will be available in Canvas on the Internet.
Lecture notes, exercises and handouts. Textbook will be announced at the start of the course.
Basic knowledge of molecular biology and statistics.
In statistics the students are required to:
This is covered by STAT100 or a similar course.
Knowledge of genetics and some statistics beyond the introductory level.
There will be compulsory assignments for the students to hand in and have approved before the exam.
Written final exam (counts 100%).
Lectures: 28 hours. Exercises: 56 hours. Individual study: 166 hours.
Special requirements in Science
Type of course:
Lectures: 2 hours per week. Exercises: 2 hours per week.
An external examiner approves the examination questions and marks 25 selected examination papers.
Allowed examination aids: A1 No calculator, no other aids
Examination details: Written exam: Letter grades