6 EC
Semester 2, period 5
5254BISI6Y
Molecular dynamics is a powerful tool to investigate the structure and dynamics of biologically relevant molecules such as proteins, DNA and lipids in atomistic detail. The insight from MD simulation yields quantitative predictions and a 'molecular movie' of important processes that helps experimentalists interpret their results. Such simulations can also be used to predict effects of e.g. point mutations. This course provides an introduction to biomolecular simulation using molecular dynamics, and enhanced sampling methodology to study biomolecular processes.
This course consists of lectures which will cover the following topics: 1) the basics of molecular dynamics, 2) the structural analysis of biomolecules, e.g. through NMR and crystallography, 3) multiscale modeling of biomolecular systems 4) the problem of rare events in conformational changes.
In addition to the lectures there will be a practical tutorial consisting of theoretical exercises as well as computer problems. The course ends with doing a small project including a real simulation on a biomolecular system.
Lectures and werkcolleges/computer practicum.
|
Activity |
Number of hours |
|
Laptop lectures |
16 |
|
Lectures |
16 |
|
Self study (includes reviewing lectures, making assignments, writing report) |
136 |
This programme does not have requirements concerning attendance (TER part B).
| Item and weight | Details |
|
Final grade | |
|
1 (10%) Biased sampling with GROMACS and PLUMED | Mandatory |
|
1 (10%) Coarse graining | Mandatory |
|
1 (10%) Molecular Dynamics with GROMACS | Mandatory |
|
5 (50%) Project: Stability of a peptide-DNA complex | Mandatory |
|
1 (10%) Structure prediction | Mandatory |
|
1 (10%) Visualisation of biomolecules | Mandatory |
Examination consists of five assignments, each 10 % of the grade, and a written report, based on a molecular simulation study of a biomolecule performed during the course, 50 % of the grade.
The manner of inspection will be communicated via the digitial learning environment.
| Searching, downloading and visualizing PDB files |
Introduction to linux and python
Molecular Dynamics with GROMACS
Metadynamics with GROMACS and PLUMED
Transition Path Sampling using OpenPathSampling
Explore the conformational space of DNA or peptide
Assignments and project will be evaluated individually, and checked for plagiarism. Feedback will be provided via grading in canvas. Grades will be given via canvas.
The 'Regulations governing fraud and plagiarism for UvA students' applies to this course. This will be monitored carefully. Upon suspicion of fraud or plagiarism the Examinations Board of the programme will be informed. For the 'Regulations governing fraud and plagiarism for UvA students' see: www.student.uva.nl
| Weeknummer | Onderwerpen | Studiestof |
| 1 | Structure of biomolecules | |
| 2 | Molecular Dynamics | |
| 3 | Force fields | |
| 4 | Sampling | |
| 5 | Biased sampling | |
| 6 | Transition path sampling | |
| 7 | Coarse graining | |
| 8 | Docking |
Recommended prior knowledge: thermodynamics, statistical mechanics, biochemistry
Contact the course coordinator for questions.