gmx density#
Synopsis#
gmx density [-f [<.xtc/.trr/...>]] [-n [<.ndx>]] [-s [<.tpr>]] [-ei [<.dat>]] [-o [<.xvg>]] [-b <time>] [-e <time>] [-dt <time>] [-[no]w] [-xvg <enum>] [-d <string>] [-sl <int>] [-dens <enum>] [-ng <int>] [-[no]center] [-[no]symm]
Description#
gmx density
computes partial densities across the box, using an index file.
For the total density of NPT simulations, use gmx energy instead.
Option -center
performs the histogram binning relative to the center
of an arbitrary group, in absolute box coordinates. If you are calculating
profiles along the Z axis box dimension bZ, output would be from -bZ/2 to
bZ/2 if you center based on the entire system.
Note that this behaviour has changed in GROMACS 5.0; earlier versions
merely performed a static binning in (0,bZ) and shifted the output. Now
we compute the center for each frame and bin in (-bZ/2,bZ/2).
Option -symm
symmetrizes the output around the center. This will
automatically turn on -center
too.
The binning is now always performed in relative coordinates to account
for changing box dimensions with pressure coupling, with the output
scaled to the average box dimension along the output axis.
Densities are in kg/m^3, and number densities or electron densities can also be
calculated. For electron densities, a file describing the number of
electrons for each type of atom should be provided using -ei
.
It should look like:
2
atomname = nrelectrons
atomname = nrelectrons
The first line contains the number of lines to read from the file. There should be one line for each unique atom name in your system. The number of electrons for each atom is modified by its atomic partial charge.
IMPORTANT CONSIDERATIONS FOR BILAYERS
One of the most common usage scenarios is to calculate the density of various
groups across a lipid bilayer, typically with the z axis being the normal
direction. For short simulations, small systems, and fixed box sizes this
will work fine, but for the more general case lipid bilayers can be complicated.
The first problem that while both proteins and lipids have low volume
compressibility, lipids have quite high area compressiblity. This means the
shape of the box (thickness and area/lipid) will fluctuate substantially even
for a fully relaxed system. Since GROMACS places the box between the origin
and positive coordinates, this in turn means that a bilayer centered in the
box will move a bit up/down due to these fluctuations, and smear out your
profile. The easiest way to fix this (if you want pressure coupling) is
to use the -center
option that calculates the density profile with
respect to the center of the box. Note that you can still center on the
bilayer part even if you have a complex non-symmetric system with a bilayer
and, say, membrane proteins - then our output will simply have more values
on one side of the (center) origin reference.
Finally, large bilayers that are not subject to a surface tension will exhibit undulatory fluctuations, where there are ‘waves’ forming in the system. This is a fundamental property of the biological system, and if you are comparing against experiments you likely want to include the undulation smearing effect.
Options#
Options to specify input files:
-f
[<.xtc/.trr/…>] (traj.xtc)-n
[<.ndx>] (index.ndx) (Optional)Index file
-s
[<.tpr>] (topol.tpr)Portable xdr run input file
-ei
[<.dat>] (electrons.dat) (Optional)Generic data file
Options to specify output files:
-o
[<.xvg>] (density.xvg)xvgr/xmgr file
Other options:
-b
<time> (0)Time of first frame to read from trajectory (default unit ps)
-e
<time> (0)Time of last frame to read from trajectory (default unit ps)
-dt
<time> (0)Only use frame when t MOD dt = first time (default unit ps)
-[no]w
(no)-xvg
<enum> (xmgrace)xvg plot formatting: xmgrace, xmgr, none
-d
<string> (Z)Take the normal on the membrane in direction X, Y or Z.
-sl
<int> (50)Divide the box in this number of slices.
-dens
<enum> (mass)Density: mass, number, charge, electron
-ng
<int> (1)Number of groups of which to compute densities.
-[no]center
(no)Perform the binning relative to the center of the (changing) box. Useful for bilayers.
-[no]symm
(no)Symmetrize the density along the axis, with respect to the center. Useful for bilayers.
Known Issues#
When calculating electron densities, atomnames are used instead of types. This is bad.