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Morphing a model with morph_model

Author(s)
Purpose
Summary of the procedure used in morph_model
Maps for morph_model
Standard run of morph_model
Supplying a map for morph_model
Getting a default parameters file for morph_model
Possible Problems
Specific limitations and problems
Literature
Additional information
List of all morph_model keywords

Author(s)

  • morph_model: Tom Terwilliger

Purpose

morph_model is a procedure for distorting a model to match an electron density map. It is suited for a case where a poor but unbiased map is available and a model that is generally locally similar to the target structure but where longer-range distances are not conserved. This is often the case in homologous structures.

Summary of the procedure used in morph_model

The basic idea in morph_model is to apply a smoothly-varying offset to the template structure so as to make it match the map as closely as possible. In this way information about the local structure of the template is retained while allowing longer-range changes in structure.

Morphing is carried out in 3 steps:

  • For each residue in the structure an offset is identified that optimizes the match of the map to a sphere of atoms within rad_morph (typically 6 A) of the CA atom of that residue.
  • The offsets are smoothed in a window of 10 residues
  • The smoothed offset for each residue is applied to all the atoms in that residue

After morphing, the morphed model is refined. This process is then repeated morph_cycles (typically 6) times.

Maps for morph_model

Normally you should specify that morph-model use a prime-and-switch map (map_type=prime_and_switch), as that is usually the most effective map for morphing. You can however choose instead to use a 2mFo-DFc map, a density-modified map, or an omit map. The prime-and-switch map is a map calculated in the same way as a density-modified map, except that once the initial model-based map is calculated (priming), the model information is no longer used (switching). This map is typically quite unbiased by the model.

Standard run of morph_model

Running morph_model is easy. If you have a template (coords1.pdb) and a data file fobs.mtz with FP SIGFP and FreeR_flag, you can type:

phenix.morph_model data=coords1.mtz model=coords1.pdb 
and morph_model will run automatically.

Supplying a map for morph_model

If you have your own map you want to use in morph_model, you can type:

phenix.morph_model data=coords1.mtz \
   model=coords1.pdb map_coeffs=my_map_coeffs.mtz
and morph_model will start off with your map coefficients instead of calculating a new map. If you specify update_map=True (default) then new maps will be calculated on each subsequent cycle. If you specify update_map=False then your map will be used throughout.

Getting a default parameters file for morph_model

Usually you will want to edit a parameters file so that you can specify more details of the run. You can get a default parameters file with:

phenix.morph_model 
and then just edit the file morph_model_params.dat.

Possible Problems

Specific limitations and problems

Literature

Additional information

List of all morph_model keywords

------------------------------------------------------------------------------- 
Legend: black bold - scope names
        black - parameter names
        red - parameter values
        blue - parameter help
        blue bold - scope help
        Parameter values:
          * means selected parameter (where multiple choices are available)
          False is No
          True is Yes
          None means not provided, not predefined, or left up to the program
          "%3d" is a Python style formatting descriptor
------------------------------------------------------------------------------- 
morph_model
   input_files
      data= None Data file with experimental data ( FP SIGFP or I SIGI ).
      data_labels= None Optional labels for experimental data Normally these
                   would be something like I,SIGI or F,SIGF
      space_group= None Optional space group specification
      free_r_data= None Optional data file with free_r flags. By default this
                   is the same file as used for experimental data.
      free_r_labels= None Optional labels for free_r flags. Normally these
                     would be something like FreeR_flags or R_free_flags
      hl_data= None Optional data file with hl coeffs. By default this is the
               same file as used for experimental data.
      hl_labels= None Optional labels for hl flags. Normally these would be
                 something like HLA,HLB,HLC,HLD
      labin= None Optional Labin line for file with data. This is present for
             backward compatibility only. Normally use data_labels instead.
             Only allowed if the data file contains myFP mySIGF and
             myFreeR_flag: LABIN FP=myFP SIGFP=mySIGFP FreeR_flag=myFreeR_flag
      model= None Input PDB file with coordinates to be refined and morphed.
      map_coeffs= None Data file (mtz format) with map coeffs ( FP PHIB FOM or
                  FWT PHWT) for use in morphing. Normally use None. If set,
                  then these map coefficients will be used instead of an omit
                  map.
      labin_map_coeffs= None Labin line for map coeffs file Something like
                        FP=FP PHIB=PHIM FOM=FOMM Normally use None; used by
                        morph_model in iteration
   output_files
      log= morph_model.log Output log file
      morphed_model= morphed_model.pdb Output morphed model
      params_out= morph_model_params.eff Parameters file to rerun morph_model
   directories
      temp_dir= "" Optional temporary work directory
      workdir= "" Optional work directory. Base path for all work
      output_dir= "" Output directory where files are to be written
      top_output_dir= None Output directory for entire set of runs
      gui_output_dir= None Base directory for PHENIX GUI. Ignored if running
                      the command-line version.
   crystal_info
      resolution= 0. high-resolution limit for map calculation
      solvent_fraction= None Optional solvent fractoin
      chain_type= *PROTEIN DNA RNA Chain type (for identifying main-chain and
                  side-chain atoms)
      correct_aniso= False Remove anisotropy from data
      final_b= None Overall B of aniso-corrected data. If None, then minimum
               of the diagonal of anisotropic B values is used
   morphing
      number_of_cycles= 6 Number of cycles of morphing
      rad_morph= 6 Radius for morphing
      rad_morph_final= None Optional final radius for morphing. If set,
                       rad_morph will be changed from initial value to final
                       value over the cycles of morphing
      map_type= simple_omit refine_omit 2fofc density_modified
                *prime_and_switch Map type to use in morphing. Ignored if
                map_coeffs is set
      use_ncs_in_ps= False Use NCS (if available) in prime-and-switch maps
      update_map= True Create new map for morphing at each cycle. Ignored if
                  map_coeffs is set
   refinement
      refinement_params= None Input parameters file for phenix.refine
      skip_clash_guard= True Skip clash guard check in refinement
      correct_special_position_tolerance= None Adjust tolerance for special
                                          position check. If 0., then check
                                          for clashes near special positions
                                          is not carried out. This sometimes
                                          allows phenix.refine to continue
                                          even if an atom is near a special
                                          position. If 1., then checks within
                                          1 A of special positions. If None,
                                          then uses phenix.refine default. (1)
      reference_restraints= False Restrain angles to starting model. This may
                            be useful at lower resolution.
      use_hl= None You can choose to use HL coefficients in refinement If
              None, hl coeffs will be used if available
   control
      verbose= False Verbose output
      debug= False Debugging output
      raise_sorry= False Raise sorry if problems
      dry_run= False Just read in and check parameter names
      nproc= 1 Number of processors to use
      group_run_command= "sh " Not currently enabled. Command to use to run
                         multiple jobs This may be sh if you are using a
                         single machine (where you might set background=True)
                         or something like 'qsub' or 'qsub -q all.q@theta' on
                         a cluster (where you should leave background=False)
      queue_commands= None Not currently enabled. You can add any commands
                      that need to be run for your queueing system. For
                      example on a PBS system you might say:
                      queue_commands='#PBS -N morph_model'
                      queue_commands='#PBS -j oe' queue_commands='#PBS -l
                      walltime=03:00:00' queue_commands='#PBS -l
                      nodes=1:ppn=1'
      condor= None Not currently enabled. Specifies if the group_run_command
              is submitting a job to a condor cluster. Set by default to True
              if group_run_command=condor_submit, otherwise False. For condor
              job submission morph_model uses a customized script with condor
              commands. Also uses one_subprocess_level=True
      one_subprocess_level= None Specifies that a subprocess cannot submit a
                            job
      single_run_command= "sh " Command to use to run single jobs Normally
                          this is sh
      background= None Run in background. If None, automatically set to True
                  if nproc is greater than one and group_run_command is sh
      ignore_errors_in_subprocess= True Generally use
                                   ignore_errors_in_subprocess=True to ignore
                                   errors in sub-processes. This allows you to
                                   continue even if a few jobs crash. If all
                                   jobs in a group crash, the process will
                                   stop. NOTE: if a job hangs or never
                                   runs...this will not be detected and you
                                   will have to either put a file with the
                                   name FINISHED in the directory where the
                                   job was to run (e.g,
                                   MORPH_MODEL_3/FINISHED) or stop the whole
                                   job by putting a file with the name
                                   STOPWIZARD in the main run directory (e.g.,
                                   MORPH_MODEL_3/STOPWIZARD)
      check_run_command= False Try out run command to make sure it works Use
                         False if your queue may not be available at the
                         beginning of your run. Use True if you want to check
                         things out
      max_wait_time= 100 Maximum time (sec) to wait for a file to be written
                     (Useful for queues or nfs-mounted systems)
      wait_between_submit_time= 1.0 You can specify the length of time
                                (seconds) to wait between each job that is
                                submitted when running sub-processes. This can
                                be helpful on NFS-mounted systems when running
                                with multiple processors to avoid file
                                conflicts. The symptom of too short a
                                wait_between_submit_time is File exists:....
      wizard_directory_number= None Directory number for MORPH_MODEL_xx.
                               Normally None except if called from GUI
      n_dir_max= 100000 Maximum number of directories to create (must be as
                 big as nproc or nstruct/chunk)
      write_run_directory_to_file= None The working directory name is written
                                   to this file
      job_title= None Job title in PHENIX GUI, not used on command line
   non_user_params
      print_citations= True Print citation information at end of run
      is_sub_process= False identifies if this is a sub-process or top-level
                      job