{+ file: bfactor_plot.inp +} {+ directory: general +} {+ description: Calculate B-factor distribution for a structure +} {+ comment: the average B-factor is calculated for each residue and also for the mainchain atoms and sidechain atoms in each residue +} {+ authors: Axel T. Brunger, and Paul D. Adams +} {+ copyright: Yale University +} {- Guidelines for using this file: - all strings must be quoted by double-quotes - logical variables (true/false) are not quoted - do not remove any evaluate statements from the file -} {- begin block parameter definition -} define( {============================ coordinates ============================} {* coordinate file *} {===>} coordinate_infile="amy_anneal.pdb"; {==================== molecular information ==========================} {* topology files *} {===>} topology_infile_1="CNS_TOPPAR:protein.top"; {===>} topology_infile_2="CNS_TOPPAR:dna-rna.top"; {===>} topology_infile_3="CNS_TOPPAR:water.top"; {===>} topology_infile_4="CNS_TOPPAR:ion.top"; {===>} topology_infile_5="CNS_TOPPAR:carbohydrate.top"; {===>} topology_infile_6=""; {===>} topology_infile_7=""; {===>} topology_infile_8=""; {* linkage files for linear, continuous polymers (protein, DNA, RNA) *} {===>} link_infile_1="CNS_TOPPAR:protein.link"; {===>} link_infile_2="CNS_TOPPAR:dna-rna-pho.link"; {===>} link_infile_3=""; {* parameter files *} {===>} parameter_infile_1="CNS_TOPPAR:protein_rep.param"; {===>} parameter_infile_2="CNS_TOPPAR:dna-rna_rep.param"; {===>} parameter_infile_3="CNS_TOPPAR:water_rep.param"; {===>} parameter_infile_4="CNS_TOPPAR:ion.param"; {===>} parameter_infile_5="CNS_TOPPAR:carbohydrate.param"; {===>} parameter_infile_6=""; {===>} parameter_infile_7=""; {===>} parameter_infile_8=""; {* molecular topology file: optional (leave blank for auto generation) *} {* Auto generation of the molecular topology from the coordinates should only be used if: (1) Each distinct protein, DNA, or RNA chain must have a separate segid (or chainid if the chainid is non-blank). (2) Each contiguous protein, RNA, or RNA chain must not be disrupted by other types of residues or ligands. Rather, these other residues should be listed after protein, RNA/DNA chains. (3) Disulphides are automatically detected based on distances between the sulfur atoms (must be less than 3 A apart). (4) Broken protein/RNA/DNA chains without terminii must be more than 2.5 A apart to be recognized as such. (5) N-linked glycan links are automatically recognized if the bonded atoms are less than 2.5 A apart. (6) Automatic generation cannot be used with alternate conformations. For ligands, the user must make suitable topology and parameter files. For non-standard covalent linkages, the custom patch file should be used. Alternatively, the generate.inp or generate_easy.inp task files can be used to generated the mtf prior to running this task file. *} {===>} structure_infile="amy.mtf"; {* for auto generation: extra linkages and modifications by custom patches *} {===>} patch_infile=""; {========================== atom selection ===========================} {* select atoms to be included in calculation *} {===>} atom_select=(known and not(hydrogen)); {* select main chain atoms *} {* note: atoms outside this selection will be considered to be side chain atoms *} {===>} atom_main=(name ca or name n or name c or name o or name ot+); {=========================== output files ============================} {* output listing file *} {===>} list_outfile="bfactor_plot.list"; {===========================================================================} { things below this line do not normally need to be changed } {===========================================================================} ) {- end block parameter definition -} checkversion 1.3 evaluate ($log_level=quiet) if ( $log_level = verbose ) then set message=normal echo=on end else set message=off echo=off end end if if ( &BLANK%structure_infile = true ) then {- read topology files -} topology evaluate ($counter=1) evaluate ($done=false) while ( $done = false ) loop read if ( &exist_topology_infile_$counter = true ) then if ( &BLANK%topology_infile_$counter = false ) then @@&topology_infile_$counter end if else evaluate ($done=true) end if evaluate ($counter=$counter+1) end loop read end @CNS_XTALMODULE:mtfautogenerate ( coordinate_infile=&coordinate_infile; convert=true; separate=true; atom_delete=(not known); hydrogen_flag=true; break_cutoff=2.5; disulphide_dist=3.0; carbo_dist=2.5; patch_infile=&patch_infile; O5_becomes="O"; ) else structure @&structure_infile end coordinates @&coordinate_infile end if {- read parameter files -} parameter evaluate ($counter=1) evaluate ($done=false) while ( $done = false ) loop read if ( &exist_parameter_infile_$counter = true ) then if ( &BLANK%parameter_infile_$counter = false ) then @@¶meter_infile_$counter end if else evaluate ($done=true) end if evaluate ($counter=$counter+1) end loop read end set message=normal echo=on end set display=&list_outfile end display >>>> B-factor plot for: display >>>> coordinate set= &STRIP%coordinate_infile display display segid resid resname B-factor B-factor-main B-factor-side display set display=OUTPUT end for $id in id ( &atom_select and tag ) loop bfac show (segid) (id $id) evaluate ($segid=$result) show (resid) (id $id) evaluate ($resid=$result) show (resname) (id $id) evaluate ($resname=$result) show ave(b) (segid $segid and resid $resid) evaluate ($bfactor=$result) show ave(b) (segid $segid and resid $resid and &atom_main) evaluate ($bfactor_main=$result) show ave(b) (segid $segid and resid $resid and not(&atom_main)) evaluate ($bfactor_side=$result) set display=&list_outfile end display $segid[a4] $resid[a4] $resname[a4] $bfactor[f10.4] \ $bfactor_main[f10.4] $bfactor_side[f10.4] set display=OUTPUT end end loop bfac stop