270190 VU Introduction to metabolic modelling (2023S)

Continuous assessment of course work

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).

Registration is open from Fr 10.02.2023 14:00 to Su 26.02.2023 23:59
Deregistration possible until Su 26.02.2023 23:59

Details

max. 20 participants

Language: English

Lecturers

Classes (iCal) - next class is marked with N

Mon., Mar. 27, 6:00 p.m. to 9:00 p.m.; Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP 1H04
Wed., Apr. 19, 4:00 p.m. to 6:00 p.m.; Prominentenzimmer, 1010 Wien, Universitätsring 1, Floor: TP00, Number: TP.274
Tue., Apr. 25, 4:00 p.m. to 6:00 p.m.; Prominentenzimmer, 1010 Wien, Universitätsring 1, Floor: TP00, Number: TP.274
Wed., Apr. 26, 4:00 p.m. to 6:00 p.m.; Prominentenzimmer, 1010 Wien, Universitätsring 1, Floor: TP00, Number: TP.274
Tue., May. 2, 4:00 p.m. to 6:00 p.m.; Prominentenzimmer, 1010 Wien, Universitätsring 1, Floor: TP00, Number: TP.274
Thu., May. 4, 4:00 p.m. to 6:00 p.m.; Prominentenzimmer, 1010 Wien, Universitätsring 1, Floor: TP00, Number: TP.274
Mon., May 15, 6:00 p.m. to 9:00 p.m.; Prominentenzimmer, 1010 Wien, Universitätsring 1, Floor: TP00, Number: TP.274

map of the area:
* Kleiner Hörsaal 3: https://chemie.univie.ac.at/fileadmin/user_upload/f_chemie/hoersaele/2022_HS_und_Seminarraeume_neu.pdf
* Prominentenzimmer: https://www.univie.ac.at/uploads/media/plan-hauptgebaeude-universitaet-wien-2020-v1.pdf

Monday 27.03. 18:00 - 21:00 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
Monday 15.05. 18:00 - 21:00 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP

Information

Aims, contents and method of the course

Computer models of biochemical networks are able to connect the genotype with the phenotype. In this primer we will give an introduction to biochemical network analysis. We will introduce basic concepts of network reconstruction and constraint based analysis of biological networks. In particular we will cover the process of building (genome scale) metabolic models and study the steady state behavior of these networks with flux balance analysis (FBA) and related methods. Finally we will show that these methods are successfully used in metabolic engineering, where FBA is a standard approach for the rationally designing microbial cell factories.

(*) Basic mathematical concepts in systems biology
(*) Reconstruction of biochemical networks
(*) Stoichiometric networks and their analysis
(*) Applications in biotechnology

After successful completion of this course, students
(*) Understand the challenges in mathematical modeling
(*) Know important types of mathematical models
(*) Are able to set up simple reaction network models
(*) Use metabolic models for exploration and strain design
(*) Know various data sources supporting metabolic analyses

Assessment and permitted materials

Oral exam (75%) + small scale research project (25%) + home work (bonus points, 4% per home work)

Minimum requirements and assessment criteria

Some knowledge of linear algebra is advantageous and very helpful but not a prerequisite

Examination topics

Content of the lectures

Reading list

Association in the course directory

AN-2, CH-CBS-05,Design

Last modified: Tu 28.03.2023 13:49