g_sorient(1) [debian man page]

g_sorient(1)					 GROMACS suite, VERSION 4.5.4-dev-20110404-bc5695c				      g_sorient(1)

NAME

       g_sorient - analyzes solvent orientation around solutes

       VERSION 4.5.4-dev-20110404-bc5695c

SYNOPSIS

       g_sorient -f traj.xtc -s topol.tpr -n index.ndx -o sori.xvg -no snor.xvg -ro sord.xvg -co scum.xvg -rc scount.xvg -[no]h -[no]version -nice
       int -b time -e time -dt time -[no]w -xvg enum -[no]com -[no]v23 -rmin real -rmax real -cbin real -rbin real -[no]pbc

DESCRIPTION

	g_sorient analyzes solvent orientation around solutes.	It calculates two angles between the vector from one or more  reference  positions
       to the first atom of each solvent molecule:

       theta1: the angle with the vector from the first atom of the solvent molecule to the midpoint between atoms 2 and 3.

       theta2:	the  angle with the normal of the solvent plane, defined by the same three atoms, or, when the option  -v23 is set, the angle with
       the vector between atoms 2 and 3.

       The reference can be a set of atoms or the center of mass of a set of atoms. The group of solvent atoms should consist of 3 atoms per  sol-
       vent molecule.  Only solvent molecules between  -rmin and  -rmax are considered for  -o and  -no each frame.

	-o: distribtion of cos(theta1) for rmin=r=rmax.

	-no: distribution of cos(theta2) for rmin=r=rmax.

	-ro: cos(theta1) and 3cos2(theta2)-1 as a function of the distance.

	-co: the sum over all solvent molecules within distance r of cos(theta1) and 3cos2(theta2)-1 as a function of r.

	-rc: the distribution of the solvent molecules as a function of r

FILES

       -f traj.xtc Input
	Trajectory: xtc trr trj gro g96 pdb cpt

       -s topol.tpr Input
	Structure+mass(db): tpr tpb tpa gro g96 pdb

       -n index.ndx Input, Opt.
	Index file

       -o sori.xvg Output
	xvgr/xmgr file

       -no snor.xvg Output
	xvgr/xmgr file

       -ro sord.xvg Output
	xvgr/xmgr file

       -co scum.xvg Output
	xvgr/xmgr file

       -rc scount.xvg Output
	xvgr/xmgr file

OTHER OPTIONS

       -[no]hno
	Print help info and quit

       -[no]versionno
	Print version info and quit

       -nice int 19
	Set the nicelevel

       -b time 0
	First frame (ps) to read from trajectory

       -e time 0
	Last frame (ps) to read from trajectory

       -dt time 0
	Only use frame when t MOD dt = first time (ps)

       -[no]wno
	View output  .xvg,  .xpm,  .eps and  .pdb files

       -xvg enum xmgrace
	xvg plot formatting:  xmgrace,	xmgr or  none

       -[no]comno
	Use the center of mass as the reference postion

       -[no]v23no
	Use the vector between atoms 2 and 3

       -rmin real 0
	Minimum distance (nm)

       -rmax real 0.5
	Maximum distance (nm)

       -cbin real 0.02
	Binwidth for the cosine

       -rbin real 0.02
	Binwidth for r (nm)

       -[no]pbcno
	Check PBC for the center of mass calculation. Only necessary when your reference group consists of several molecules.

SEE ALSO

       gromacs(7)

       More information about GROMACS is available at <http://www.gromacs.org/>.

								  Mon 4 Apr 2011						      g_sorient(1)

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g_h2order(1)					 GROMACS suite, VERSION 4.5.4-dev-20110404-bc5695c				      g_h2order(1)

NAME

       g_h2order - computes the orientation of water molecules

       VERSION 4.5.4-dev-20110404-bc5695c

SYNOPSIS

       g_h2order  -f  traj.xtc	-n index.ndx -nm index.ndx -s topol.tpr -o order.xvg -[no]h -[no]version -nice int -b time -e time -dt time -[no]w
       -xvg enum -d string -sl int

DESCRIPTION

	g_h2order computes the orientation of water molecules with respect to the normal of the box. The program determines the average cosine	of
       the  angle between the dipole moment of water and an axis of the box. The box is divided in slices and the average orientation per slice is
       printed.  Each water molecule is assigned to a slice, per time frame, based on the position of the oxygen. When	-nm  is  used,	the  angle
       between the water dipole and the axis from the center of mass to the oxygen is calculated instead of the angle between the dipole and a box
       axis.

FILES

       -f traj.xtc Input
	Trajectory: xtc trr trj gro g96 pdb cpt

       -n index.ndx Input
	Index file

       -nm index.ndx Input, Opt.
	Index file

       -s topol.tpr Input
	Run input file: tpr tpb tpa

       -o order.xvg Output
	xvgr/xmgr file

OTHER OPTIONS

       -[no]hno
	Print help info and quit

       -[no]versionno
	Print version info and quit

       -nice int 19
	Set the nicelevel

       -b time 0
	First frame (ps) to read from trajectory

       -e time 0
	Last frame (ps) to read from trajectory

       -dt time 0
	Only use frame when t MOD dt = first time (ps)

       -[no]wno
	View output  .xvg,  .xpm,  .eps and  .pdb files

       -xvg enum xmgrace
	xvg plot formatting:  xmgrace,	xmgr or  none

       -d string Z
	Take the normal on the membrane in direction X, Y or Z.

       -sl int 0
	Calculate order parameter as function of boxlength, dividing the box in nr slices.

KNOWN PROBLEMS

       - The program assigns whole water molecules to a slice, based on the first atom of three in the index  file  group.  It	assumes  an  order
       O,H,H. Name is not important, but the order is. If this demand is not met, assigning molecules to slices is different.

SEE ALSO

       gromacs(7)

       More information about GROMACS is available at <http://www.gromacs.org/>.

								  Mon 4 Apr 2011						      g_h2order(1)

Linux and UNIX Man Pages

g_sorient(1) [debian man page]

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