Biotechnology: omics

5.00 credits

30.0 h + 30.0 h

This learning unit is not open to incoming exchange students!

Teacher(s)

Branders Vincent;

Language

French

Prerequisites

Molecular biology
Biochemistry
Data visualization
Statistics

The prerequisite(s) for this Teaching Unit (Unité d’enseignement – UE) for the programmes/courses that offer this Teaching Unit are specified at the end of this sheet.

Main themes

This course will cover the different biological analysis techniques that generate high-throughput data (so-called “omics” techniques), such as: DNA and RNA sequencing, proteomics, metabolomics... (non-exhaustive list which will be adapted according to the rapid evolution of this field).
For each method, the course will introduce:

The operating principle of each method (sequencing, mass spectrometry, etc.)
Analysis, processing and normalization of raw data
Data interpretation and visualization.
The biases and pitfalls related to these techniques (problems of technical and biological variability, reproducibility, experimental design).

Generic methods for analyzing biological data will also be covered (clustering, enrichment, ontologies, etc.), in connection with the data analysis course and the statistics course.
Finally, the course will include an introduction to the databases that can be used in this field (TCGA, GEO, Encode etc).

Learning outcomes

At the end of this learning unit, the student is able to :
Understand the operating principle of omics methods Understand the concepts and principles of omics data analysis Analyze simple omics data Understand and critique a publication presenting omics data

Content

1. Introduction
2. DNA sequencing (genomics)

Principle and technologies available
Genome, exome, panel
Analysis of raw data (alignment, reference genome, construction of a new genome, calling of variants, quality controls, etc.)
Interpretation

3. RNA sequencing (transtriptomics)

Principle and technologies
Gene expression analysis
Variants, mergers, new transcripts

4. Proteomics

Mass spectrometry, principle and technologies
Data analysis (identification of peptides and proteins, quantification)
Data interpretation

5. Metabolomics
6. Single Cell

Teaching methods

Lectures and guided practical session

Practical sessions are performed in groups to use databases and results interpretation tools

Evaluation methods

The final grade consists of

25% for practical sessions occurring during the semester
75% for the final exam

The practical session's grade is fixed at the end of the semester: there is no option to receive a new grade for it during the second session.
The final exam is, by default, a written exam (on paper or, when appropriate, on a computer).

Online resources

https://moodle.uclouvain.be/course/view.php?id=5853

Teaching materials

Required teaching material include all documents (lecture slides, project assignments, complements, ...) available from the Moodle website for this course.
Les supports obligatoires sont constitués de l'ensemble des documents (transparents des cours magistraux, énoncés des travaux pratiques, compléments, ...) disponibles depuis le site Moodle du cours.

Faculty or entity

SINC

Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme

Sigle

Credits

Prerequisites

Learning outcomes

Bachelor in Computer Science

SINC1BA

LSINC1231 AND LSINC1211