Provided by: gromacs-data_4.6.5-1build1_all
do_dssp - assigns secondary structure and calculates solvent accessible surface area VERSION 4.6.5
do_dssp -f traj.xtc -s topol.tpr -n index.ndx -ssdump ssdump.dat -map ss.map -o ss.xpm -sc scount.xvg -a area.xpm -ta totarea.xvg -aa averarea.xvg -[no]h -[no]version -nice int -b time -e time -dt time -tu enum -[no]w -xvg enum -sss string -ver int
do_dssp reads a trajectory file and computes the secondary structure for each time frame calling the dssp program. If you do not have the dssp program, get it from http://swift.cmbi.ru.nl/gv/dssp. do_dssp assumes that the dssp executable is located in /usr/local/bin/dssp. If this is not the case, then you should set an environment variable DSSP pointing to the dssp executable, e.g.: setenv DSSP /opt/dssp/bin/dssp Since version 2.0.0, dssp is invoked with a syntax that differs from earlier versions. If you have an older version of dssp, use the -ver option to direct do_dssp to use the older syntax. By default, do_dssp uses the syntax introduced with version 2.0.0. Even newer versions (which at the time of writing are not yet released) are assumed to have the same syntax as 2.0.0. The structure assignment for each residue and time is written to an .xpm matrix file. This file can be visualized with for instance xv and can be converted to postscript with xpm2ps. Individual chains are separated by light grey lines in the .xpm and postscript files. The number of residues with each secondary structure type and the total secondary structure ( -sss) count as a function of time are also written to file ( -sc). Solvent accessible surface (SAS) per residue can be calculated, both in absolute values (A2) and in fractions of the maximal accessible surface of a residue. The maximal accessible surface is defined as the accessible surface of a residue in a chain of glycines. Note that the program g_sas can also compute SAS and that is more efficient. Finally, this program can dump the secondary structure in a special file ssdump.dat for usage in the program g_chi. Together these two programs can be used to analyze dihedral properties as a function of secondary structure type.
-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 -ssdump ssdump.dat Output, Opt. Generic data file -map ss.map Input, Lib. File that maps matrix data to colors -o ss.xpm Output X PixMap compatible matrix file -sc scount.xvg Output xvgr/xmgr file -a area.xpm Output, Opt. X PixMap compatible matrix file -ta totarea.xvg Output, Opt. xvgr/xmgr file -aa averarea.xvg Output, Opt. xvgr/xmgr file
-[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) -tu enum ps Time unit: fs, ps, ns, us, ms or s -[no]wno View output .xvg, .xpm, .eps and .pdb files -xvg enum xmgrace xvg plot formatting: xmgrace, xmgr or none -sss string HEBT Secondary structures for structure count -ver int 2 DSSP major version. Syntax changed with version 2
gromacs(7) More information about GROMACS is available at <http://www.gromacs.org/>. Mon 2 Dec 2013 do_dssp(1)