Processing CEST Data: Difference between revisions

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# Install X11, nmrPipe, Python >=2.7, and ChemEx (from the Kay lab)
# Have X11, nmrPipe, Python >=2.7, and ChemEx (from the Kay lab) installed
# Open a c-shell with “csh” and navigate to the directory with your ser file
# Open a c-shell with “csh” and navigate to the directory with your ser file
# Open X11
# Open X11
Line 10: Line 10:
##y should be real with N total and valid points
##y should be real with N total and valid points
##z should be the 15N dimension
##z should be the 15N dimension
        - zMODE Echo-Antiecho
## zMODE Echo-Antiecho
        - yMODE Real
## yMODE Real
        - aq2D States
## aq2D States
# Save the script. It should look like the script that follows this protocol.
# Save the script. It should look like the script that follows this protocol.
# Add these lines:
# Add these lines:
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##| pipe2xyz –out fids/UBQ%03d.fid –y –ov
##| pipe2xyz –out fids/UBQ%03d.fid –y –ov
##/bin/rm –fr data/
##/bin/rm –fr data/
# Run the fid.com script you just saved.
# Run the [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/fid.com fid.com] script you just saved.
# Input file names and phase values into ftcpmg.com (follows this protocol) and run
# Input file names and phase values into [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/ftcpmg.com ftcpmg.com] (follows this protocol) and run
# Open test spectrum in nmrDraw
# Open test spectrum in nmrDraw
# Pick peaks and save the peak list
# Pick peaks and save the peak list
# Rename the peaks to their corresponding amino acid and residue #. Alternatively, create a peakList.txt with their IDs and run addASS.py.
# Rename the peaks to their corresponding amino acid and residue #. Alternatively, create a peakList.txt with their IDs and run [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/addA.py addA.py].
# Run autoFit.tcl in the c-shell.
# Run [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/autoFit.tcl autoFit.tcl] in the c-shell.
##autoFit.tcl –specName fts/UBQ%03d.ft2 –inTab test.tab –series
##autoFit.tcl –specName fts/UBQ%03d.ft2 –inTab test.tab –series
# Run extract_profiles_bru.py (follows)
# Run [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/extract_profiles_bru.py extract_profiles_bru.py] (follows)
##./extract_profiles_bru.py –tbl nlin.tab –par fq3list –out fit/
##./extract_profiles_bru.py –tbl nlin.tab –par fq3list –out fit/
# Make sure the .out files are named like “A#N-HN.out”
# Make sure the .out files are named like “A#N-HN.out”
# Then run ChemEx, check their tutorial
# Then run ChemEx, check their tutorial
Other Helpful Files: [http://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/calcFMFinput.py calcFMFinput.py] [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/exp.cfg exp.cfg] [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/fit.com fit.com] [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/met.cfg met.cfg] [https://bionmr.unl.edu/files/misc/mediawikidownloads/CEST/par.cfg par.cfg]
[[category:Needs_Updating]] <!--No idea what CEST Data is to link it correctly seems more like a protein file-->
[[category:Data_Processing_and_Analysis]]

Latest revision as of 15:30, 9 September 2024

Processing CEST Data


  1. Have X11, nmrPipe, Python >=2.7, and ChemEx (from the Kay lab) installed
  2. Open a c-shell with “csh” and navigate to the directory with your ser file
  3. Open X11
  4. In the terminal type “bruker”
  5. Click “read parameters”
  6. Switch the F1 and F2 axes
    1. y should be real with N total and valid points
    2. z should be the 15N dimension
    3. zMODE Echo-Antiecho
    4. yMODE Real
    5. aq2D States
  7. Save the script. It should look like the script that follows this protocol.
  8. Add these lines:
    1. xyz2pipe –in fid/test%03d.fid –z –ri2c
    2. | pipe2xyz –out fids/UBQ%03d.fid –y –ov
    3. /bin/rm –fr data/
  9. Run the fid.com script you just saved.
  10. Input file names and phase values into ftcpmg.com (follows this protocol) and run
  11. Open test spectrum in nmrDraw
  12. Pick peaks and save the peak list
  13. Rename the peaks to their corresponding amino acid and residue #. Alternatively, create a peakList.txt with their IDs and run addA.py.
  14. Run autoFit.tcl in the c-shell.
    1. autoFit.tcl –specName fts/UBQ%03d.ft2 –inTab test.tab –series
  15. Run extract_profiles_bru.py (follows)
    1. ./extract_profiles_bru.py –tbl nlin.tab –par fq3list –out fit/
  16. Make sure the .out files are named like “A#N-HN.out”
  17. Then run ChemEx, check their tutorial

Other Helpful Files: calcFMFinput.py exp.cfg fit.com met.cfg par.cfg