(in Polish) Molecular modeling and computational structural biology 2 1100-MMCSB2

Block I: Analysis of the stability of the protein-ligand complex:
Students will use the VMD and NAMD programs to visualize protein trajectory and perform basic computer simulation analyses such as:
- study of changes in thermodynamic and energy parameters;
- describe the changes to the initial system (RMSD, RMSF);
- determination of changes in geometric parameters (analysis of bond lengths, angles, torsion angles);
- defining global structural changes in the simulated system.

Block II: Modeling of the protein-ligand system and ligand affinity analysis:
Students will be introduced to the procedure for performing and analyzing molecular docking and molecular dynamics in the MOE software. Participants will be asked to generate a variety of ligand conformations at the active site, select the best conformation of the inhibitor, and check its stability in the receptor. The main aim of the exercise is to present the students with a computer-aided drug design using physical and statistical parameters, such as the analysis of structural clusters, the characterization of the inhibitor binding mode at the active site, the evaluation of the protein-ligand complex stability and the estimation of ligand-receptor affinity.

Block III: Studying the mechanisms of chemical reactions in the active site:
Students will use quantum-classical molecular dynamics to design new-generation antibiotics that use a covalent bonding mechanism to inactivate enzymes. The main aim of the exercise is to present the participants with various quantum effects observed during chemical reactions, such as the formation and break down of covalent bonds, changing the protonation state, or changing the hybridization of an atom.
Block IV: Non-equilibrium molecular dynamics methods.
- Introduction to perturbation methods.
- Preparation of the system for simulation.
- Conducting simulations with the chosen method.
- Analysis of simulation results and comparison with experimental data.

Block V: Computational determination of binding free energy of a ligand to a receptor.
- Introduction to computational methods for determining binding free energy.
- Performing calculations using a selected method.
- Analysis of results in the context of experimental data.