Nuclear magnetic resonance spectroscopy (NMR) can provide a great deal of information about structure and dynamics of biomolecules. The quality of an NMR structure strongly depends on the number of experimental observables and on their accurate conversion into geometric restraints. When distance restraints are derived from nuclear Overhauser effect spectroscopy (NOESY), stereo-specific assignments of prochiral atoms can contribute significantly to the accuracy of NMR structures of proteins and nucleic acids. Here we introduce a series of NOESY-based pulse sequences that can assist in the assignment of chiral CHD methylene protons in random fractionally deuterated proteins. Partial deuteration suppresses spin-diffusion between the two protons of CH2 groups that normally impedes the distinction of cross-relaxation networks for these two protons in NOESY spectra. Three and four-dimensional spectra allow one to distinguish cross-relaxation pathways involving either of the two methylene protons so that one can obtain stereospecific assignments. In addition, the analysis provides a large number of stereospecific distance restraints. Non-uniform sampling was used to ensure optimal signal resolution in 4D spectra and reduce ambiguities of the assignments. Automatic assignment procedures were modified for efficient and accurate stereospecific assignments during automated structure calculations based on 3D spectra. The protocol was applied to calcium-loaded calbindin D9k. A large number of stereospecific assignments lead to a significant improvement of the accuracy of the structure.
Chemical-Shift-Resolved19F NMR Spectroscopy between 13.5 and 135 MHz: Overhauser-DNP-Enhanced Diagonal Suppressed Correlation Spectroscopy
From The DNP-NMR Blog:
Chemical-Shift-Resolved19F NMR Spectroscopy between 13.5 and 135 MHz: Overhauser-DNP-Enhanced Diagonal Suppressed Correlation Spectroscopy
George, C. and N. Chandrakumar, Chemical-Shift-Resolved19F NMR Spectroscopy between 13.5 and 135 MHz: Overhauser-DNP-Enhanced Diagonal Suppressed Correlation Spectroscopy. Angewandte Chemie, 2014. 126(32): p. 8581-8584.
http://dx.doi.org/10.1002/ange.201402320
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01-21-2015 08:39 PM
Chemical-Shift-Resolved19F NMR Spectroscopy between 13.5 and 135 MHz: Overhauser-DNP-Enhanced Diagonal Suppressed Correlation Spectroscopy
From The DNP-NMR Blog:
Chemical-Shift-Resolved19F NMR Spectroscopy between 13.5 and 135 MHz: Overhauser-DNP-Enhanced Diagonal Suppressed Correlation Spectroscopy
George, C. and N. Chandrakumar, Chemical-Shift-Resolved19F NMR Spectroscopy between 13.5 and 135 MHz: Overhauser-DNP-Enhanced Diagonal Suppressed Correlation Spectroscopy. Angewandte Chemie, 2014. 126(32): p. 8581-8584.
http://dx.doi.org/10.1002/ange.201402320
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01-16-2015 09:09 PM
The Nuclear Overhauser Effect from a Quantitative Perspective
The Nuclear Overhauser Effect from a Quantitative Perspective
Publication date: Available online 22 November 2013
Source:Progress in Nuclear Magnetic Resonance Spectroscopy</br>
Author(s): Beat Vögeli</br>
The nuclear Overhauser enhancement or effect (NOE) is the most important measure in liquid-state NMR with macromolecules. Thus, the NOE is the subject of numerous reviews and books. Here, the NOE is revisited in light of our recently introduced measurements of exact nuclear Overhauser enhancements (eNOEs), which enabled the determination of multiple-state 3D...
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11-22-2013 03:09 PM
[NMR paper] Thiolactomycin-based ?-ketoacyl-AcpM synthase A (KasA) inhibitors: fragment-based inhibitor discovery using transient one-dimensional nuclear overhauser effect NMR spectroscopy.
Thiolactomycin-based ?-ketoacyl-AcpM synthase A (KasA) inhibitors: fragment-based inhibitor discovery using transient one-dimensional nuclear overhauser effect NMR spectroscopy.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--highwire.stanford.edu-icons-externalservices-pubmed-standard-jbc_final.gif Related Articles Thiolactomycin-based ?-ketoacyl-AcpM synthase A (KasA) inhibitors: fragment-based inhibitor discovery using transient one-dimensional nuclear overhauser effect NMR spectroscopy.
J Biol Chem. 2013 Mar 1;288(9):6045-52
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05-10-2013 07:03 PM
Automated sequence- and stereo-specific assignment of methyl-labeled proteins by paramagnetic relaxation and methylâ??methyl nuclear overhauser enhancement spectroscopy
Automated sequence- and stereo-specific assignment of methyl-labeled proteins by paramagnetic relaxation and methylâ??methyl nuclear overhauser enhancement spectroscopy
Abstract Methyl-transverse relaxation optimized spectroscopy is rapidly becoming the preferred NMR technique for probing structure and dynamics of very large proteins up to ~1 MDa in molecular size. Data interpretation, however, necessitates assignment of methyl groups which still presents a very challenging and time-consuming process. Here we demonstrate that, in combination with a known 3D structure, paramagnetic...
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09-26-2011 06:42 AM
Naturally occurring biodegradable polymers as the basis of chiral gels for the distinction of enantiomers by partially oriented NMR spectroscopy.
Naturally occurring biodegradable polymers as the basis of chiral gels for the distinction of enantiomers by partially oriented NMR spectroscopy.
Naturally occurring biodegradable polymers as the basis of chiral gels for the distinction of enantiomers by partially oriented NMR spectroscopy.
Int J Artif Organs. 2011 Feb;34(2):134-8
Authors: Büchler SS, Kummerlöwe G, Luy B
In modern, high resolution NMR spectroscopy, anisotropic parameters play an important role. They can be measured with the help of liquid crystalline mesophases or stretched...
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07-14-2011 04:40 PM
[NMR paper] Relaxation-optimized NMR spectroscopy of methylene groups in proteins and nucleic aci
Relaxation-optimized NMR spectroscopy of methylene groups in proteins and nucleic acids.
Related Articles Relaxation-optimized NMR spectroscopy of methylene groups in proteins and nucleic acids.
J Am Chem Soc. 2004 Sep 1;126(34):10560-70
Authors: Miclet E, Williams Jr DC, Clore GM, Bryce DL, Boisbouvier J, Bax A
A large fraction of hydrogens in proteins and nucleic acids is of the methylene type. Their detailed study, however, in terms of structure and dynamics by NMR spectroscopy is hampered by their fast relaxation properties, which give...
Nuclear overhauser spectroscopy of chiral CHD methylene groups
Linear Mode
