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== 3DNA ==
'' '''Update:''' See also the [[dssr_block]] wrapper script for '''x3dna-dssr'''.''


3DNA provides a perl script (<b>blocview</b>) which produces Calladine-Drew style block representations based on the standard reference frame for nucleic acids. The produced files are in raster3D format, and are also processed by molscript. Therefore to produce the following representations you will need to install:
3DNA[http://x3dna.org/] provides a ruby script (<b>blocview</b>) which produces Calladine-Drew style block representations based on the standard reference frame for nucleic acids. The produced files are in raster3D format, and are also processed by molscript. Therefore to produce the following representations you will need to install:


- 3DNA V1.5 [http://rutchem.rutgers.edu/~xiangjun/3DNA]
- 3DNA [http://x3dna.org/]
 
- 3DNA V2.0 [http://3dna.rutgers.edu/]


- Raster 3D [http://skuld.bmsc.washington.edu/raster3d/raster3d.html]
- Raster 3D [http://skuld.bmsc.washington.edu/raster3d/raster3d.html]
Line 11: Line 9:
- Molscript [http://www.avatar.se/molscript/download.html]
- Molscript [http://www.avatar.se/molscript/download.html]


Once you have the previous software installed and the path to their binaries correctly configured you can get the block representation for any nucleic acid. The next example shows how to do it for tRNA (PDB:ID 1ehz)
Once you have the previous software installed, and the path to their binaries correctly configured, you can get the block representation for any nucleic acid. The next example shows how to do it for tRNA (PDB:ID 1ehz)


<pre>  
== Invoking ==
<source lang="bash">  
pdb_get.py 1ehz
pdb_get.py 1ehz
blocview -o 1ehz.pdb
blocview -o 1ehz.pdb
</pre>
</source>


The pdb_get python script comes from Dr. Robert Campbell's website http://pldserver1.biochem.queensu.ca/~rlc/work/scripts/pdb_get.py [http://pldserver1.biochem.queensu.ca/~rlc/work/scripts/pdb_get.py]
The pdb_get python script comes from [http://pldserver1.biochem.queensu.ca/~rlc/work/scripts/pdb_get.py]Dr. Robert Campbell's website.


Once blocview is run it will generate various r3d files which can be combined with the original pdb files to produce the following image:
Once blocview is run it will generate various r3d files which can be combined with the original pdb files to produce the following image:


 
== Example 1 ==
[[Image:trna.png]]
<gallery>
 
Image:trna.png|Using tb.pdb  and t2.r3d
</gallery>


To generate the previous image the following script was used:
To generate the previous image the following script was used:
trna.pml
trna.pml
 
== Syntax ==
<pre>
<source lang="python">
load tb.pdb
load tb.pdb
load t2.r3d
load t2.r3d
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set ray_trace_mode, 3
set ray_trace_mode, 3
set ray_trace_fog, 0
set ray_trace_fog, 0
sert ray_shadows, 0
set ray_shadows, 0
set orthoscopic, 1
set orthoscopic, 1
set antialias, 5
set antialias, 5
Line 64: Line 64:
png trna.png
png trna.png
quit
quit
</pre>
</source>


== Example 2 ==


An automatically generated pymol ray traced image can also be obtained by running <b>blocview</b> on version 2.0 or 3DNA directly in the following way:
An automatically generated pymol ray traced image can also be obtained by running <b>blocview</b> from 3DNA v. 2.0 directly. Using the following command:


<pre>
<pre>
Line 75: Line 76:
And the result is:
And the result is:


[[Image:X3dna_r3d_pymol.png]]
<gallery>
Image:X3dna_r3d_pymol.png
</gallery>
 
 
== More ==
 
For more examples of figures obtained using 3DNA and pymol follow the next link:
[[http://mesguerra.org/render/render.htm]]
 
[[Category:Nucleic_Acids]]

Latest revision as of 17:00, 22 January 2016

Update: See also the dssr_block wrapper script for x3dna-dssr.

3DNA[1] provides a ruby script (blocview) which produces Calladine-Drew style block representations based on the standard reference frame for nucleic acids. The produced files are in raster3D format, and are also processed by molscript. Therefore to produce the following representations you will need to install:

- 3DNA [2]

- Raster 3D [3]

- Molscript [4]

Once you have the previous software installed, and the path to their binaries correctly configured, you can get the block representation for any nucleic acid. The next example shows how to do it for tRNA (PDB:ID 1ehz)

Invoking

 
pdb_get.py 1ehz
blocview -o 1ehz.pdb

The pdb_get python script comes from [5]Dr. Robert Campbell's website.

Once blocview is run it will generate various r3d files which can be combined with the original pdb files to produce the following image:

Example 1

To generate the previous image the following script was used: trna.pml

Syntax

load tb.pdb
load t2.r3d
bg_color white
hide lines
zoom *,-5
set ray_trace_mode, 3
set ray_trace_fog, 0
set ray_shadows, 0
set orthoscopic, 1
set antialias, 5
set valence, 1
util.cba(29)
color grey, (elem C)
cartoon arrow
set cartoon_ladder_mode, 0
set cartoon_rect_width, 0.2
set cartoon_rect_length, 0.5
show cartoon
set stick_radius, 0.14
show sticks
set_view (\
     0.680474579,   -0.153203458,   -0.716576934,\
     0.658882320,   -0.300013036,    0.689829707,\
    -0.320666909,   -0.941552401,   -0.103208199,\
    -0.000084338,    0.000022471, -263.030426025,\
    57.723434448,   45.338260651,   20.895099640,\
   218.710235596,  307.348541260,    1.000000000 )
set cartoon_color, green, resn G
set cartoon_color, yellow, resn C
set cartoon_color, red, resn A
set cartoon_color, cyan, resn U
ray 1024,768
png trna.png
quit

Example 2

An automatically generated pymol ray traced image can also be obtained by running blocview from 3DNA v. 2.0 directly. Using the following command:

blocview -o -t=100 1ehz.pdb

And the result is:


More

For more examples of figures obtained using 3DNA and pymol follow the next link: [[6]]