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(New page: === DESCRIPTION === '''symexp''' is used to reconstruct neighboring asymmetric units from the crystallographic experiment that produced the given structure. This is assuming the use of a ...)
 
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load any .pdb file into PyMOL (here we use 1GVF).<br>
 
load any .pdb file into PyMOL (here we use 1GVF).<br>
  
add image of 1GVF
+
[[Image:1GVF_assym.png]]
  
 
At the PyMOL command prompt type the following:<br>
 
At the PyMOL command prompt type the following:<br>
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produces three new objects.  We now have four objects corresponding to two biologic units (the functional protein in a cell).
 
produces three new objects.  We now have four objects corresponding to two biologic units (the functional protein in a cell).
  
add image of 1GVF_1A
+
[[Image:1GVF_1A.png]]
  
  
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If we color all of the sym* cyan we will produce the following:<br>
 
If we color all of the sym* cyan we will produce the following:<br>
  
add image of 1GVF_5A
+
[[Image:1GVF_5A.jpeg]]
  
As you can see, we can begin to understand the crystal environment of our asymmetric unit.<br>
+
As you can see, we can begin to understand the crystal environment of our asymmetric unit.  Increasing ''distance'' will reveal more of the crystal lattice, but will place in increasing demand on your computer's rendering ability.<br>
  
 
NOTE: My PyMOL likes to crash if I ask it to ray trace or make a .png of anything that is too large.  I'm not sure how large too large is, but be aware of this.
 
NOTE: My PyMOL likes to crash if I ask it to ray trace or make a .png of anything that is too large.  I'm not sure how large too large is, but be aware of this.
  
  
I will try to learn how to upload pictures soon.
 
 
--[[User:Baker1|Baker1]] 13:41, 10 November 2008 (CST)
 
--[[User:Baker1|Baker1]] 13:41, 10 November 2008 (CST)
  
 
[[Category:Commands|symexp]]
 
[[Category:Commands|symexp]]

Revision as of 19:50, 10 November 2008

DESCRIPTION

symexp is used to reconstruct neighboring asymmetric units from the crystallographic experiment that produced the given structure. This is assuming the use of a PDB file or equivalent that contains enough information to reproduce the lattice.


USAGE

symexp name_for_new_objects,asymmetric_name,(asymmetric_name),distance

  • name_for_new_objects - PyMOL will generate a number of new objects corresponding to copies (rotated and translated) of the given asymmetric unit with the given name appended with a numerical counter
  • asymmetric_name - this is the name of the loaded asymmetric unit that you wish to reproduce neighboring crystal partners for
  • (asymmetric_name) - the same name, but with parantheses around it - my guess is that the first is the source of atom coordinates and this is the source of the symmetry operators, but that is only a guess.
  • distance - in Angstroms; reproduce any other unit that has any part of it falling withing distance Angstroms from the original asymetric unit


EXAMPLE

load any .pdb file into PyMOL (here we use 1GVF).

1GVF assym.png

At the PyMOL command prompt type the following:
>> symexp sym,1GVF,(1GVF),1
produces three new objects. We now have four objects corresponding to two biologic units (the functional protein in a cell).

1GVF 1A.png


>> symexp sym,1GVF,(1GVF),5
If we color all of the sym* cyan we will produce the following:

1GVF 5A.jpeg

As you can see, we can begin to understand the crystal environment of our asymmetric unit. Increasing distance will reveal more of the crystal lattice, but will place in increasing demand on your computer's rendering ability.

NOTE: My PyMOL likes to crash if I ask it to ray trace or make a .png of anything that is too large. I'm not sure how large too large is, but be aware of this.


--Baker1 13:41, 10 November 2008 (CST)