301696 VO Fundamentals in Systems Biology (2023W)

ON-SITE

Moodle

Registration/Deregistration

Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).

Details

Language: English

Examination dates

Monday 29.01.2024 Monday 25.03.2024

Lecturers

Classes (iCal) - next class is marked with N

jeweils Montags 17:15-19:15 im Hörsaal 4 (HS4), Währinger Straße 42, 1090 Wien.

    
    Monday
    02.10.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    09.10.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    16.10.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    23.10.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    30.10.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    06.11.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    13.11.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    20.11.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    27.11.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    04.12.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    11.12.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    08.01.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    15.01.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    22.01.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42
    
    Monday
    29.01.
    17:15 - 19:15
    Hörsaal 4 Chemie HP Währinger Straße 42

Information

Aims, contents and method of the course

Systems biology studies the interactions and relations between individual
parts of a biological system and aims to understand how these interactions
give rise to the function and behavior of that system. Building
computational models of biological systems that propose testable hypotheses
is a central aspect of the systems biology work cycle. The lecture
therefore gives an overview of the various methods and techniques for the
modeling of biological systems.
Graph based modeling, stoichiometry matrix analysis, theory of chemical
organizations, chemical reaction kinetics, modeling reaction networks with
ODEs, stochastic modeling of reaction networks, process algebras and formal
reasoning.
Course material: Lecture notes, Videos
Grading: multiple choice test for each lecture unit.

Assessment and permitted materials

For grading online multiple choice tests for each lecture unit need to be completed by the student. The tests will be made available on Moodle on a fixed date for a limited period of time. The cumulative sum of points achieved in these tests will result in a grad at the and of the term.

Minimum requirements and assessment criteria

Completion of the multiple choice tests of all lecture units.

Examination topics

Answering multiple choice questions covering the topics of the lecture units.

Reading list

video of the lectures, lecture handouts.

Association in the course directory

MMB II., MMB W-3, UF MA BU 01, UF MA BU 04, MES5

Last modified: We 27.03.2024 08:26