Dx map

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Sample data to try dx

cd $HOME/Desktop
mkdir test_dx
cd test_dx

# See sample scripts
ls -la $HOME/software/relax/sample_scripts/model_free
cp $HOME/software/relax/sample_scripts/model_free/map.py .

# Get data
ls -la $HOME/software/relax/test_suite/shared_data/model_free/sphere
cp $HOME/software/relax/test_suite/shared_data/model_free/sphere/*.out .
cp $HOME/software/relax/test_suite/shared_data/model_free/sphere/*.pdb .

# Run
cat map.py
relax map.py


Code to generate map

# See relax help in prompt
help(dx.map)

from pipe_control.mol_res_spin import return_spin, spin_loop

for cur_spin, mol_name, resi, resn, spin_id in spin_loop(full_info=True, return_id=True, skip_desel=True):
    file_name = "map%s" % (cur_spin_id .replace('#', '_').replace(':', '_').replace('@', '_'))
    dx.map(params=['dw', 'pA', 'kex'], map_type='Iso3D', spin_id=":1@N", inc=70, lower=None, upper=None, axis_incs=5,
        file_prefix=file_name, dir=ds.resdir, point=None, point_file='point', remap=None)
    #vp_exec:  A flag specifying whether to execute the visual program automatically at start-up.
    dx.execute(file_prefix=file_name, dir=ds.resdir, dx_exe='dx', vp_exec=True)

How to install dx

See install dx

How to use dx

Run dx, and then in the Data explorer or DE.

  • Click on Edit Visual Programs....
  • Select the map.net program created by relax,

Now in the Visual Program Editor or VPE.

  • Select the menu entry Execute->Execute on change.

That's it.

You now have a 3D frame, but nothing in it. Therefore the contour levels must be too low or high. From the map file, the values are in the hundreds of thousands.

Then:

  • In the main program window, double click on the Isosurface elements.
  • Change the values until you see surfaces. In the first the value is 500. I changed this to 500,000. Multiply all by 1000.
  • In the second, 100 -> 100000.
  • In the third, 20 -> 20000.
  • In the last, 7 -> 7000.

This should maybe be performed by the dx.map user function, determining reasonable contour levels.

With a bit of zooming, clicking on File -> Save image in the Surface window, allowing rendering, and outputting to a large TIFF file, save current, then apply.

An example image cropped and converted to PNG in the GIMP at https://gna.org/bugs/download.php?file_id=20641.

Note that for a good resolution plot, you will need many more increments. Using the lower and upper dx.map arguments will be useful to zoom into the space.

Example images

These images is from bug 22024. Minimisation space for CR72 is catastrophic. The chi2 surface over dw and pA is bounded.

https://gna.org/bugs/index.php?22024Bug 22024: Minimisation space for CR72 is catastrophic. The chi2 surface over dw and pA is bounded.
https://gna.org/bugs/index.php?22024Bug 22024: Minimisation space for CR72 is catastrophic. The chi2 surface over dw and pA is bounded.
https://gna.org/bugs/index.php?22024Bug 22024: Minimisation space for CR72 is catastrophic. The chi2 surface over dw and pA is bounded.
https://gna.org/bugs/index.php?22024Bug 22024: Minimisation space for CR72 is catastrophic. The chi2 surface over dw and pA is bounded.
https://gna.org/bugs/index.php?22024Bug 22024: Minimisation space for CR72 is catastrophic. The chi2 surface over dw and pA is bounded.

Code to generate map

This script will generate data that can help visualize the different models and the minimisation algorithms in relax.

Call the script cpmg_synthetic.py or similar. Remember .py ending

relax cpmg_synthetic.py

Here is the synthetic data generator code:

See also

Install dx