Phenix: Difference between revisions

There may be one or two data files.

Just use "phenix.model_vs_data model.pdb data.hkl" where data.hkl is a reflection file in most of known formats. phenix.model_vs_data can output the map defined as:

== Experimental phasing ==

phenix.autosol uses HYSS, SOLVE, Phaser, RESOLVE, xtriage and phenix.refine to solve a structure and generate experimental phases with the MAD, MIR, SIR, or SAD methods

[http://www.phaser.cimr.cam.ac.uk/index.php/Phaser_Crystallographic_Software Phaser] can do SAD phasing - it is therefore called phaser_ep (ep stands for "experimental phasing"). The Phenix documentation is at [http://www.phenix-online.org/documentation/reference/phaser_ep.htm]. The keywords are concisely (but somewhat lightly) documented at [http://www.phaser.cimr.cam.ac.uk/index.php/Keywords]. A script documenting the following features  

== Molecular replacement ==

This "wizard" provides an interface to Phaser molecular replacement and feeds the results of molecular replacement directly into the AutoBuild Wizard for automated model rebuilding

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== Ligands ==

== Model building and completion ==

phenix.phase_and_build, phenix.build_one_model are fast ways to obtain results.

=== phenix.fit_loops - fill short gaps using a loop library, and longer gaps (up to 15 residues) iteratively ===

=== phenix.ligand_identification ===

=== Example for use of phenix.refine ===

phenix.ready_set internally uses phenix.elbow for ligands and phenix.reduce for the protein. phenix.pdbtools can also add hydrogens (FIXME: what are the differences?).

Hydrogens should not be used in NCS and TLS groups - it might be a good idea to add <font face="Courier"> and not (element H or element D)</font> to all selection strings.

==== Occupancy ====

   }

==== DEN refinement (similar to what is in CNS) ====

* run your model through TLSMD server to identify TLS domains (it will produce PHENIX friendly TLS groups selections);

http://skuld.bmsc.washington.edu/~tlsmd/

for example:

  }

Use

to automatically flip these sidechains to make them better fit the density and/or hydrogen bonding pattern.

A good idea if refinement is done at low resolution but a high resolution model is available.

* In specific (rare !) situations one wants to exclude specific interactions. The pdb_interpretation.custom_nonbonded_symmetry_exclusion=<selection> command line keyword was designed for this purpose.  

  refinement.geometry_restraints.edits {

Can work with ensembles of structures. Seems to have no specific documentation. Can also calculate map CC for all atoms or per residue.

   

=== phenix.fobs_minus_fobs_map - calculate difference density ===

Seems to have no specific documentation.

   

=== phenix.grow_density - local density improvement ===

with output=xplor produces an X-PLOR style map. Adding a PDB file will result in a masked map.

computes various arrays such as Fcalc, Fmask, Fmodel, Fbulk, and more.

== NCS usage ==

from protein coordinates (chains), heavy atom coordinates, or a density map. Example:  

   phenix.find_ncs my_8_molecules.pdb

Seems to have no specific documentation.

Example:

   phenix.apply_ncs find_ncs.ncs_spec chainA.pdb

== Model analysis and manipulation ==

e.g.  

  phenix.pdbtools your_model.pdb  model_statistics=True

will result in a output file model_1.pdb.geo which contains ALL geometry information (bonds, angles, torsions, planarity, non-bonded ...) for each and every atom in your model.

=== phenix.pdb_atom_selection ===

In this example, selects all atoms within 3 A from CA atom in chain A of residue number 9, and writes them into cut.pdb file.

===  phenix.superpose_ligands - Superposition of ligands ===

Example files at [http://cci.lbl.gov/~afonine/superpose_ligands/]