320003 VO Biophysical Pharmaceutical Chemistry (2010W)
Labels
Details
Language: German
Examination dates
- Thursday 20.01.2011
- Tuesday 01.02.2011
- Tuesday 22.02.2011
- Thursday 03.03.2011
- Monday 07.03.2011
- Thursday 07.04.2011
- Thursday 12.05.2011
- Thursday 09.06.2011
- Thursday 14.07.2011
- Wednesday 28.09.2011
- Friday 28.10.2011
- Thursday 24.11.2011
- Wednesday 14.12.2011
Lecturers
Classes (iCal) - next class is marked with N
- Tuesday 19.10. 13:00 - 15:00 UZA2 Hörsaal 8 (Raum 2Z206) 2.OG
- Monday 25.10. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Monday 08.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 09.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Monday 15.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 16.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 16.11. 13:00 - 15:00 UZA2 Hörsaal 8 (Raum 2Z206) 2.OG
- Monday 22.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 23.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Monday 29.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 30.11. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Monday 06.12. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 07.12. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 07.12. 13:00 - 15:00 UZA2 Hörsaal 8 (Raum 2Z206) 2.OG
- Monday 13.12. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 14.12. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Monday 10.01. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 11.01. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Monday 17.01. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 18.01. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Thursday 20.01. 13:00 - 15:00 UZA2 Hörsaal 8 (Raum 2Z206) 2.OG
- Monday 24.01. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Tuesday 25.01. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
- Monday 31.01. 09:00 - 10:30 UZA2 Hörsaal 5 (Raum 2Z202) 2.OG
Information
Aims, contents and method of the course
the thermodynamic basis for interaction of drugs with biomolecules; interaction forces involved in drug-biomolecule interaction (ionic-, dipol-dipol-, electronendonor/acceptor-, hydrophobic-, Van der Waals-interactions, hydrogen bonding) and methods to measure these forces (microcalorimetrie, ORCD, binding studies), determination of the structure of ligand-protein complexes (X-ray crystallography, NMR-spectroscopy), strategies for identification of lead-compounds (serendipity, transition state mimicry, high throughput screening, in silico screening), optimisation of lead compounds - rational drug design (statistical background, 2D- and 3D- structure activity relationship analysis, methods used in quantitative structure activity relationship studies), structure based design (docking, SAR by NMR, de novo design)
Assessment and permitted materials
Written exam, 10 questions, 100 points, 90 minutes
Minimum requirements and assessment criteria
The lecture gives an overview on the theoretical background and the experimental biophysical methods for the rational design of new drugs. Main topics are the molecular basis of drug-receptor interaction, methods for measuring the corresponding interaction forces and the use of these data in computational drug design.
Examination topics
Language: German (material partly in English); powerpoint presentation, software demonstrations
Reading list
Association in the course directory
A210
Last modified: Sa 02.04.2022 00:27