University of Chicago:NMR Software Guide: Difference between revisions

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==Processing NMR Data With OS X/Linux Freeware==
{{NMR_logo_nav}}
=Processing NMR Data With OS X/Linux Freeware=


Based upon manuals by:
Based upon manuals by:
Line 13: Line 14:
<br>(Last offline revision: July 27, 2005)<br><br>
<br>(Last offline revision: July 27, 2005)<br><br>


===Volume 1: A User’s Guide to NMRPipe===
==Volume 1: A User’s Guide to NMRPipe==


1D Spectrum<br>
===[[University_of_Chicago:NMR_Manual/V1S1 | 1D Data in NMRPipe]]<br>===
#Overview<br>
#Overview<br>
2D Spectrum<br>
 
#Overview<br>
===[[University_of_Chicago:NMR_Manual/V1S2 | 2D Data in NMRPipe]]<br>===
#Start the program<br>
#Overview
#Orient yourself<br>
#Start the program
#Convert Varian’s fid to an NMRPipe fid <br>
#Orient yourself
#Read in the NMRPipe-format 2D fid. <br>
#Convert Varian’s fid to an NMRPipe fid
#Process the first increment<br>
#Read in the NMRPipe-format 2D fid.
#Edit the script “process2d.com”<br>
#Process the first increment
#Execute the script “process2d.com”<br>
#Edit the script “process2d.com”
#Read the spectrum “test.ft” in the NMRPipe GUI<br>
#Execute the script “process2d.com”
#Phase the F1 dimension<br>
#Read the spectrum “test.ft” in the NMRPipe GUI
#Edit the script “process2d.com” again<br>
#Phase the F1 dimension
#Re-run the script “process2d.com” <br>
#Edit the script “process2d.com” again
#Convert the NMRPipe file “test.ft” to NMRView format<br>
#Re-run the script “process2d.com”
#You’re done!<br>
#View the reprocessed 2D spectrum in the NMRPipe GUI
Processing 3D Data<br>
#Convert the NMRPipe file “test.ft” to NMRView format
#You’re done!
 
===[[University_of_Chicago:NMR_Manual/V1S3 | 3D Data in NMRPipe]]<br>===
#Convert the data<br>
#Convert the data<br>
#Process & phase the first plane.<br>
#Process & phase the first plane.<br>
Line 40: Line 44:
#Convert the 3D nmrPipe spectrum to nmrView format.<br>
#Convert the 3D nmrPipe spectrum to nmrView format.<br>
#You are done, done done!<br>
#You are done, done done!<br>
Appendix 1: Phasing<br>
<br>
#1D phasing<br>
#1D Phasing theory<br>
#Phasing indirectly-detected dimensions <br>
#Relationship between phasing and first point multiplication<br>
#Relationship between linear prediction and phasing<br>
Appendix 2: Installing NMRPipe on a Mac<br>
#Prepare your terminal windows to emulate “t c-shell”<br>
#Edit your “tcshrc” file<br>
Appendix 3: Troubleshooting<br>


===Volume 2: A User’s Guide to NMRView with NvAssign===
==Volume 2: A User’s Guide to NMRView==


Overview<br>
===[[Labs:University_of_Chicago:NMR_Manual:V2:S1 | Overview of NMRView]]<br>===
#Purpose<br>
#Purpose<br>
#General<br>
#General<br>
Line 60: Line 55:
#Clicking<br>
#Clicking<br>
#Guide Nomenclature<br>
#Guide Nomenclature<br>
Viewing and Plotting a 2D spectrum<br>
===[[Labs:University_of_Chicago:NMR_Manual:V2:S2 | 2D Spectra in NMRView]]<br>===
#Presumptions<br>
#Presumptions<br>
#Start NMRView<br>
#Start NMRView<br>
Line 71: Line 66:
#Familiarize yourself with cursor functions and zooming in & out <br>
#Familiarize yourself with cursor functions and zooming in & out <br>
#“Plotting” your spectrum<br>
#“Plotting” your spectrum<br>
Picking and Assigning Peaks in a 2D spectrum<br>
===[[Labs:University_of_Chicago:NMR_Manual:V2:S3 | Picking and Assigning Peaks in NMRView]]<br>===
#Call up the peak picking window<br>
#Call up the peak picking window<br>
#Adjust the appearance of your spectrum<br>
#Adjust the appearance of your spectrum<br>
Line 82: Line 77:
#Compress and Degap<br>
#Compress and Degap<br>
#Manually assign residue identities to your peaks (optional)<br>
#Manually assign residue identities to your peaks (optional)<br>
Overlaying two 2D spectra<br>
===[[Labs:University_of_Chicago:NMR_Manual:V2:S4 | Overlaying Spectra in NMRView]]<br>===
Measuring chemical shift differences between two 2D spectra<br>
===[[Labs:University_of_Chicago:NMR_Manual:V2:S5 | Measuring Chemical Shift Differences in NMRView]]<br>===
Obtaining distance restraints from a NOESY spectrum<br>
===[[Labs:University_of_Chicago:NMR_Manual:V2:S6 | Obtaining Distance Restraints in NMRView]]<br>===
Examining 3D spectra<br>
===[[Labs:University_of_Chicago:NMR_Manual:V2:S7 | 3D spectra in NMRView]]<br>===
NVAssign: Coordinating 3D Experiments to Achieve Total Assignment<br>
<br>
 
==Volume 3: A User’s Guide to NVAssign==
 
===[[Labs:University_of_Chicago:NMR_Manual:V2:S8 | NVAssign]]<br>===
#Overview<br>
#Overview<br>
#Important details<br>
#Important details<br>
#Preparation<br>
#Preparation<br>
##Process the necessary spectra and get them in NMRView format.
#*Process the necessary spectra and get them in NMRView format.
##Pick peaks in each of these spectra
#*Pick peaks in each of these spectra
##Change your default paths
#*Change your default paths
##Review and edit your picked peaks in each spectrum
#*Review and edit your picked peaks in each spectrum
##D. Open NVAssign<br>
#*Open NVAssign<br>
#Read in your data<br>
#Read in your data<br>
#Filter your peaks<br>
#Filter your peaks<br>
#Cluster your peaks<br>
#Cluster your peaks<br>
#Edit your clusters<br>
#Edit your clusters<br>
<br>
==Appendices==
===[[Labs:University_of_Chicago:NMR_Manual:V1:A1 | Appendix 1: Phasing]]<br>===
#1D phasing<br>
#1D Phasing theory<br>
#Phasing indirectly-detected dimensions <br>
#Relationship between phasing and first point multiplication<br>
#Relationship between linear prediction and phasing<br>
===[[Labs:University_of_Chicago:NMR_Manual:V1:A2 | Appendix 2: Installing NMRPipe on a Mac]]<br>===
#Prepare your terminal windows to emulate “t c-shell”<br>
#Edit your “tcshrc” file<br>
===[[Labs:University_of_Chicago:NMR_Manual:V1:A3 | Appendix 3: Troubleshooting]]<br>===

Latest revision as of 21:31, 2 January 2006

NMR Home
Software Guide
Link
Link
Link

Processing NMR Data With OS X/Linux Freeware

Based upon manuals by:

Josh Kurutz, Ph.D.

Technical Director

Biochemistry & Molecular Biology NMR Facility

University of Chicago


(Last offline revision: July 27, 2005)

Volume 1: A User’s Guide to NMRPipe

1D Data in NMRPipe

  1. Overview

2D Data in NMRPipe

  1. Overview
  2. Start the program
  3. Orient yourself
  4. Convert Varian’s fid to an NMRPipe fid
  5. Read in the NMRPipe-format 2D fid.
  6. Process the first increment
  7. Edit the script “process2d.com”
  8. Execute the script “process2d.com”
  9. Read the spectrum “test.ft” in the NMRPipe GUI
  10. Phase the F1 dimension
  11. Edit the script “process2d.com” again
  12. Re-run the script “process2d.com”
  13. View the reprocessed 2D spectrum in the NMRPipe GUI
  14. Convert the NMRPipe file “test.ft” to NMRView format
  15. You’re done!

3D Data in NMRPipe

  1. Convert the data
  2. Process & phase the first plane.
  3. 3D processing with 2 scripts, LP in 15N only
  4. Processing 3D data using one script with LP in 13C and 15N
  5. Examine your 3D spectrum
  6. Convert the 3D nmrPipe spectrum to nmrView format.
  7. You are done, done done!


Volume 2: A User’s Guide to NMRView

Overview of NMRView

  1. Purpose
  2. General
  3. Helpful Concepts
  4. Platforms & Program versions
  5. Clicking
  6. Guide Nomenclature

2D Spectra in NMRView

  1. Presumptions
  2. Start NMRView
  3. Orient yourself
  4. Set Preferences (optional)
  5. Create a new window
  6. Bring your spectrum into the working memory
  7. Orient yourself with respect to the window menu and its options
  8. Draw your spectrum in the window you created
  9. Familiarize yourself with cursor functions and zooming in & out
  10. “Plotting” your spectrum

Picking and Assigning Peaks in NMRView

  1. Call up the peak picking window
  2. Adjust the appearance of your spectrum
  3. Select your peak picking parameters
  4. Pick the peaks
  5. Orient yourself with the Peak Panel
  6. Save your peak list as an .xpk file
  7. Couple multiple peaks that should be one peak
  8. Manually add and/or delete peaks to/from the peaklist
  9. Compress and Degap
  10. Manually assign residue identities to your peaks (optional)

Overlaying Spectra in NMRView

Measuring Chemical Shift Differences in NMRView

Obtaining Distance Restraints in NMRView

3D spectra in NMRView


Volume 3: A User’s Guide to NVAssign

NVAssign

  1. Overview
  2. Important details
  3. Preparation
    • Process the necessary spectra and get them in NMRView format.
    • Pick peaks in each of these spectra
    • Change your default paths
    • Review and edit your picked peaks in each spectrum
    • Open NVAssign
  4. Read in your data
  5. Filter your peaks
  6. Cluster your peaks
  7. Edit your clusters


Appendices

Appendix 1: Phasing

  1. 1D phasing
  2. 1D Phasing theory
  3. Phasing indirectly-detected dimensions
  4. Relationship between phasing and first point multiplication
  5. Relationship between linear prediction and phasing

Appendix 2: Installing NMRPipe on a Mac

  1. Prepare your terminal windows to emulate “t c-shell”
  2. Edit your “tcshrc” file

Appendix 3: Troubleshooting

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