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Version: 371758 (fedora - 01/12/10)

Section: 1 (Commandes utilisateur)


g_x2top - generates a primitive topology from coordinates



g_x2top -f conf.gro -o -r out.rtp -[no]h -[no]version -nice int -ff string -[no]v -nexcl int -[no]H14 -[no]alldih -[no]remdih -[no]pairs -name string -[no]pbc -[no]pdbq -[no]param -[no]round -kb real -kt real -kp real


x2top generates a primitive topology from a coordinate file. The program assumes all hydrogens are present when defining the hybridization from the atom name and the number of bonds. The program can also make an rtp entry, which you can then add to the rtp database.

When -param is set, equilibrium distances and angles and force constants will be printed in the topology for all interactions. The equilibrium distances and angles are taken from the input coordinates, the force constant are set with command line options. The force fields somewhat supported currently are:

G53a5 GROMOS96 53a5 Forcefield (official distribution)

oplsaa OPLS-AA/L all-atom force field (2001 aminoacid dihedrals)

The corresponding data files can be found in the library directory with name atomname2type.n2t. Check chapter 5 of the manual for more information about file formats. By default the forcefield selection is interactive, but you can use the -ff option to specify one of the short names above on the command line instead. In that case pdb2gmx just looks for the corresponding file.


-f conf.gro Input
 Structure file: gro g96 pdb tpr etc. 

-o Output, Opt.
 Topology file 

-r out.rtp Output, Opt.
 Residue Type file used by pdb2gmx 


 Print help info and quit

 Print version info and quit

-nice int 0
 Set the nicelevel

-ff string oplsaa
 Force field for your simulation. Type "select" for interactive selection.

 Generate verbose output in the top file.

-nexcl int 3
 Number of exclusions

 Use 3rd neighbour interactions for hydrogen atoms

 Generate all proper dihedrals

 Remove dihedrals on the same bond as an improper

 Output 1-4 interactions (pairs) in topology file

-name string ICE
 Name of your molecule

 Use periodic boundary conditions.

 Use the B-factor supplied in a pdb file for the atomic charges

 Print parameters in the output

 Round off measured values

-kb real 400000
 Bonded force constant (kJ/mol/nm2)

-kt real 400
 Angle force constant (kJ/mol/rad2)

-kp real 5
 Dihedral angle force constant (kJ/mol/rad2)


- The atom type selection is primitive. Virtually no chemical knowledge is used

- Periodic boundary conditions screw up the bonding

- No improper dihedrals are generated

- The atoms to atomtype translation table is incomplete (atomname2type.n2t files in the data directory). Please extend it and send the results back to the GROMACS crew.



More information about GROMACS is available at <>.

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