Team:EPF-Lausanne/Analysis
From 2009.igem.org
Equilibrium
RMSD for individual residues
We aim at finding the average RMSD over time for each residue in the protein using VMD.
1. We load the .psf and .dcd files obtained after the first round of simulation.
2. In the TkCon window type:
- source residue_rmsd.tcl
- set sel_resid [[atomselect top "protein and ] get resid]
This will get all the residues number of all alpha-carbons in the protein. Since there is just one and only one α-carbon per residue, it is a good option.
3. Now we will calculate the RMSD values of all atoms in the newly created selection:
- rmsd residue over time top $sel resid
At the end of the calculation, we have a list of the avergae RMSD per residue (in the file residue_rmsd.dat)
4. In VMD, in Graphics → Representations, do the following actions:
- create two replicates: protein and resname FMN in selected atoms
- for the FMN, choose CPK as a drawing method
- for the protein, choose tube as drawing method, and user as coloring method. Now click on the Trajectory tab, and in the Color Scale Data Range, type 0.40 and 1.00.
The protein is colored according to its average RMSD values. The residues displayed in blue are more mobile while the ones in red move less.
Here is a movie with the protein colored according to average RMSD values.
5. Now we can plot the RMSD value per residue by typing in a Terminal window :
- xmgrace residue rmsd.dat
We obtain the following picture:
Maxwell-Boltzmann Energy Distribution
Here we will confirm that the kinetic energy distribution of the atoms in a system corresponds to the Maxwelldistribution for a given temperature.
1. In VMD, load the .psf file. Browse for the restart velocity file (in our case, it was 2v0w_hydr_wb_i_eq.restart.vel), the type of file need this time to be selected. In the Determine file type: pull-down menu, choose NAMD Binary Coordinates, and load again.
The molecule looks terrible! That is because VMD is reading the velocities as if they were coordinates, but how it looks doesn't matter: we just need VMD to make a file containing the masses and velocities for every atom.