Difference between revisions of "Main Page"

Revision as of 13:20, 12 August 2006

Structure preparation

`convpdb.pl`	conversion/manipulation of PDB files
`complete.pl`	completion of missing atoms
`mutate.pl`	amino acid residue mutations
`mutateNA.pl`	nucleotide base mutations

Structure analysis

`centerOfMass.pl`	center of mass
`rgyr.pl`	radius of gyration
`rms.pl`	root mean square displacement
`lsqfit.pl`	least-squares fit superposition
`contact.pl`	identification and comparison of native contacts
`countIntCont.pl`	contacts between different chains
`mindist.pl`	minimum distance between two residues
`qscore.pl`	Q-score calculation
`dihed.pl`	phi/psi/chi1 dihedral calculation
`vicinity.pl`	identification of residues within cutoff
`cluster.pl`	clustering based on mutual similarity

All-Atom Modeling

`enerCHARMM.pl`	evaluate energy with CHARMM
`minCHARMM.pl`	minimize with CHARMM
`mdCHARMM.pl`	run molecular dynamics with CHARMM
`analyzeCHARMM.pl`	analyze molecular dynamics simulations with CHARMM
`nmaCHARMM.pl`	normal mode analysis with CHARMM
`pbCHARMM.pl`	Poisson-Boltzmann calculations with CHARMM
`equiCHARMM.pl`	explicit solvent simulations equilibration
`scalarCHARMM.pl`	obtain scalar variables from CHARMM
`genPSF.pl`	generate PSF file from PDB
`pdb2traj.pl`	generate DCD trajectory from list of PDBs
`processDCD.pl`	process DCD trajectory file
`enerAmber.pl`	evaluate energy with Amber
`minAmber.pl`	minimize with Amber
`mdAmber.pl`	run molecular dynamics simulation with Amber

SICHO Lattice Modeling

`latticesim.pl`	SICHO lattice simulation with MONSSTER
`latticeener.pl`	SICHO energy from MONSSTER
`genchain.pl`	generate lattice chain from PDB
`rebuild.pl`	rebuild all-atom model from lattice chain
`checkchain.pl`	(check validity of lattice chain)
`genseq.pl`	(generate MONSSTER sequence file)
`geninput.pl`	(generate MONSSTER input file)
`genrestr.pl`	(generate MONSSTER restraint file)
`xtracttra.pl`	(extract lattice chain from MONSSTER trajectory)
`hlamc.pl`	(multi-scale lattice/all-atom sampling)

Replica Exchange Sampling

`aarex.pl`	(all-atom replica exchange simulation with CHARMM)
`aarexAmber.pl`	(all-atom replica exchange simulation with Amber)
`latrex.pl`	(lattice replica exchange simulation with MONSSTER)
`gorex.pl`	(GO model replica exchange simulation with CHARMM)
`hlamcrex.pl`	(multi-scale lattice/all-atom replica exchange simulation)
`rexinfo.pl`	(replica exchange control information)
`rexanalysis.pl`	(replica exchange analysis)
`readArchive.pl`	(read replica exchange trajectory archive file)
`writeArchive.pl`	(write replica exchange trajectory archive file)
`rexserver.pl`	(replica exchange server)

Ensemble Computing

`checkin.pl`	(generate ensemble from PDB files)
`ensrun.pl`	(run command across ensemble)
`ensmin.pl`	(minimize ensemble structures)
`enseval.pl`	(evaluate energy for members of ensemble)
`enslatsim.pl`	(generate ensemble from lattice simulations)
`enscut.pl`	(truncate residues of all members of ensemble)
`ensfiles.pl`	(obtain list of files for ensemble structures)
`getprop.pl`	(obtain data items for ensemble structures)
`setprop.pl`	(set data items for ensemble structures)
`calcprop.pl`	(calculate standard structural properties for ensemble)
`enscluster.pl`	(cluster ensemble structures)
`bestcluster.pl`	(rank clusters)
`showcluster.pl`	(display clusters)
`jobserver.pl`	(start job server for parallel runs)

Structure Prediction

`buildModel.pl`	(build template-based model with loops generated by MODELLER)
`psipred.pl`	(predict secondary structure with PSIPRED)
`psiblast.pl`	(obtain sequence alignment with PSI-BLAST)

@@ Line 3: / Line 3: @@
 {|
 |-
-|width=200pt| <TT>[[convpdb.pl]]</TT>  || (conversion/manipulation of PDB files)
+|width=200pt| <TT>[[convpdb.pl]]</TT>  || conversion/manipulation of PDB files
 |-
-| <TT>[[complete.pl]]</TT> || (completion of missing atoms)
+| <TT>[[complete.pl]]</TT> || completion of missing atoms
 |-
-| <TT>[[mutate.pl]]</TT>   || (amino acid residue mutations)
+| <TT>[[mutate.pl]]</TT>   || amino acid residue mutations
 |-
-| <TT>[[mutateNA.pl]]</TT> || (nucleotide mutations)
+| <TT>[[mutateNA.pl]]</TT> || nucleotide base mutations
 |}
@@ Line 16: / Line 16: @@
 {|
 |-
-| <TT>[[centerOfMass.pl]]</TT> || (center of mass)
+|width=200pt| <TT>[[centerOfMass.pl]]</TT> || center of mass
 |-
-| <TT>[[rgyr.pl]]</TT> || (radius of gyration)
+| <TT>[[rgyr.pl]]</TT> || radius of gyration
 |-
-| <TT>[[rms.pl]]</TT>  || (root mean square displacement)
+| <TT>[[rms.pl]]</TT>  || root mean square displacement
 |-
-| <TT>[[lsqfit.pl]]</TT> || (least-squares fit superposition)
+| <TT>[[lsqfit.pl]]</TT> || least-squares fit superposition
 |-
-| <TT>[[contact.pl]]</TT> || (identification and comparison of native contacts)
+| <TT>[[contact.pl]]</TT> || identification and comparison of native contacts
 |-
-| <TT>[[countIntCont.pl]]</TT> || (contacts between different chains)
+| <TT>[[countIntCont.pl]]</TT> || contacts between different chains
 |-
-| <TT>[[mindist.pl]]</TT> || (minimum distance between two residues)
+| <TT>[[mindist.pl]]</TT> || minimum distance between two residues
 |-
-| <TT>[[qscore.pl]]</TT> || (Q-score calculation)
+| <TT>[[qscore.pl]]</TT> || Q-score calculation
 |-
-| <TT>[[dihed.pl]]</TT> || (phi/psi/chi1 dihedral calculation)
+| <TT>[[dihed.pl]]</TT> || phi/psi/chi1 dihedral calculation
 |-
-| <TT>[[vicinity.pl]]</TT> || (identification of residues within cutoff)
+| <TT>[[vicinity.pl]]</TT> || identification of residues within cutoff
 |-
-| <TT>[[cluster.pl]]</TT> || (clustering based on mutual similarity)
+| <TT>[[cluster.pl]]</TT> || clustering based on mutual similarity
 |}
@@ Line 43: / Line 43: @@
 {|
 |-
-| <TT>[[enerCHARMM.pl]]</TT> || (evaluate energy with CHARMM)
+|width=200pt| <TT>[[enerCHARMM.pl]]</TT> || evaluate energy with CHARMM
 |-
-| <TT>[[minCHARMM.pl]]</TT> || (minimize with CHARMM)
+| <TT>[[minCHARMM.pl]]</TT> || minimize with CHARMM
 |-
-| <TT>[[mdCHARMM.pl]]</TT>  || (run molecular dynamics with CHARMM)
+| <TT>[[mdCHARMM.pl]]</TT>  || run molecular dynamics with CHARMM
 |-
-| <TT>[[analyzeCHARMM.pl]]</TT> || (analyze molecular dynamics simulations with CHARMM)
+| <TT>[[analyzeCHARMM.pl]]</TT> || analyze molecular dynamics simulations with CHARMM
 |-
-| <TT>[[nmaCHARMM.pl]]</TT> || (normal mode analysis with CHARMM)
+| <TT>[[nmaCHARMM.pl]]</TT> || normal mode analysis with CHARMM
 |-
-| <TT>[[pbCHARMM.pl]]</TT> || (Poisson-Boltzmann calculations with CHARMM)
+| <TT>[[pbCHARMM.pl]]</TT> || Poisson-Boltzmann calculations with CHARMM
 |-
-| <TT>[[equiCHARMM.pl]]</TT> || (explicit solvent simulations equilibration)
+| <TT>[[equiCHARMM.pl]]</TT> || explicit solvent simulations equilibration
 |-
-| <TT>[[scalarCHARMM.pl]]</TT> || (obtain scalar variables from CHARMM)
+| <TT>[[scalarCHARMM.pl]]</TT> || obtain scalar variables from CHARMM
 |-
-| <TT>[[genPSF.pl]]</TT> || (generate PSF file from PDB)
+| <TT>[[genPSF.pl]]</TT> || generate PSF file from PDB
 |-
-| <TT>[[pdb2traj.pl]]</TT> || (generate DCD trajectory from list of PDBs)
+| <TT>[[pdb2traj.pl]]</TT> || generate DCD trajectory from list of PDBs
 |-
-| <TT>[[processDCD.pl]]</TT> || (process DCD trajectory file)
+| <TT>[[processDCD.pl]]</TT> || process DCD trajectory file
 |-
-| <TT>[[enerAmber.pl]]</TT>  || (evaluate energy with Amber)
+| <TT>[[enerAmber.pl]]</TT>  || evaluate energy with Amber
 |-
-| <TT>[[minAmber.pl]]</TT> || (minimize with Amber)
+| <TT>[[minAmber.pl]]</TT> || minimize with Amber
 |-
-| <TT>[[mdAmber.pl]]</TT>   || (run molecular dynamics simulation with Amber)
+| <TT>[[mdAmber.pl]]</TT>   || run molecular dynamics simulation with Amber
 |}
@@ Line 76: / Line 76: @@
 {|
 |-
-| <TT>[[latticesim.pl]]</TT> || (SICHO lattice simulation with MONSSTER)
+|width=200pt| <TT>[[latticesim.pl]]</TT> || SICHO lattice simulation with MONSSTER
 |-
-| <TT>[[latticeener.pl]]</TT> || (SICHO energy from MONSSTER)
+| <TT>[[latticeener.pl]]</TT> || SICHO energy from MONSSTER
 |-
-| <TT>[[genchain.pl]]</TT>  || (generate lattice chain from PDB)
+| <TT>[[genchain.pl]]</TT>  || generate lattice chain from PDB
 |-
-| <TT>[[rebuild.pl]]</TT> || (rebuild all-atom model from lattice chain)
+| <TT>[[rebuild.pl]]</TT> || rebuild all-atom model from lattice chain
 |-
 | <TT>[[checkchain.pl]]</TT> || (check validity of lattice chain)