Difference between revisions of "Molecular Dynamics Simulations (PKU)"

From Bioinformatikpedia
(intermediate Structures)
(intermediate Structures)
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* mut408_nh.pdb: removed hydrogens, added structural water (and DNA)
 
* mut408_nh.pdb: removed hydrogens, added structural water (and DNA)
 
* mut408_solv_tmp.pdb: added ions
 
* mut408_solv_tmp.pdb: added ions
* mut408_solv.pdb: duplicate water removed
+
* mut408_solv.pdb: duplicate water removed (none in our case)
 
* mut408_solv.pdb2: just protein and added DNA, input to create individual files for each chain (see next step)
 
* mut408_solv.pdb2: just protein and added DNA, input to create individual files for each chain (see next step)
 
* mut408_solv_0.pdb: used to create restriction files for every chain (only 1 here)
 
* mut408_solv_0.pdb: used to create restriction files for every chain (only 1 here)

Revision as of 13:33, 28 June 2012

Oh, good. For a moment there I thought we were in trouble.

Short task description

This week, we will start the molecular dynamics simulation of our protein with the wildtype and two mutations. The simulation will be analyzed at a later time, see the complete task description for details. A journal will probably not be neccessary...

Selected Models

Besides the wildtype, we chose the hyperphenylalaninemia causing ALA322GLY mutation, since this mutation only reduces the enzyme activity and should have a visible but not severe effect on the protein, and the PKU causing ARG408TRP mutation, since this mutation should have a large impact on energy and flexibility of the protein, that has already been visible in the previous minimization simulations.


  • Wildtype 1J8U --> jop pending
  • Mutation ALA322GLY --> run finished in 04:28:48, simulation probably successfull, further checks pending
  • Mutation ARG408TRP --> run finished in 04:34:08, simulation successfull

The Molecular Dynamics Simulation

We simulated the movement of the three selected structure with AGRoS, an automated Gromacs simulation pipeline.

One AGRoS run consists first of basic checks of the input structure for breaks and gaps. Then water in close distance to to the protein is saved as structural water, that might interact with the protein and be neccessary for protein stability, the other crystal water molecules are remoced. scwrl is used to complete sidechains and the complete structure is minimized for the first time in vacuum. Then, a surrounding box is defined and filled with water and ions to simulate solvent. First, the whole protein is fixed in place and the solvent minimized, then the backbone is fixed in place and the sidechains are minimized in solvent, finally the whole system is minimized.

After this preparations, two short MD runs try to relax the system from the crystalized to a more native state. The final simulation spans 10 nanoseconds in 2 million steps of 5 femtoseconds.

Job submission

#!/bin/bash
#SBATCH -o /home/hpc/pr58ni/di34faw/logs/1J8U_wildtype_MD.out
#SBATCH -D /home/hpc/pr58ni/di34faw/MD/
#SBATCH -J 1J8U_wildtype
#SBATCH --clusters=mpp1
#SBATCH --get-user-env
#SBATCH --ntasks=32
#SBATCH --mail-type=end
#SBATCH --mail-user=boidolj@in.tum.de
#SBATCH --export=NONE
#SBATCH --time=10:00:00
source /etc/profile.d/modules.sh
module load gromacs

cd $HOME/
$HOME/AGroS/AGroS /home/hpc/pr58ni/di34faw/Gromacs/Models/1J8U.pdb -dir $HOME/MD/ -threads 32 --scwrlPATH $HOME/SCWRL

intermediate Structures

e.g. for the ARG408TRP mutant (model file mut408.pdb)

  • mut408.pdb: input structure with clashing water removed.
  • mut408_br.pdb: just the protein, no DNA, crystal water, etc..
  • mut408_br_0.pdb: 1 file for every chain, if several are present
  • mut408.pdb2: structure with hydrogens removed
  • mut408_repair.pdb: correctly numbered
  • mut408_repair_0.pdb
  • mut408_dna.pdb: extracted DNA, empty in our case
  • mut408_water.pdb: contains structural water <15A from the protein, empty in our case
  • mut408_sc.pdb: sidechains completed/adjusted with scwrl
  • mut408_nh.pdb: removed hydrogens, added structural water (and DNA)
  • mut408_solv_tmp.pdb: added ions
  • mut408_solv.pdb: duplicate water removed (none in our case)
  • mut408_solv.pdb2: just protein and added DNA, input to create individual files for each chain (see next step)
  • mut408_solv_0.pdb: used to create restriction files for every chain (only 1 here)
  • mut408_solv_min.pdb: structure with minimized solvent (protein fixed)
  • mut408_solv_min.pdb2: just protein of previous structure, input to create individual files for each chain (see next step)
  • mut408_solv_min_0.pdb: used to create restriction files for every chain (only 1 here)
  • mut408_solv_min2.pdb: minimization with only backbone restrained
  • mut408_solv_min3.pdb: final minimization before MD runs