The nuclear Overhauser effect (NOE) is one of NMR spectroscopy's most important and versatile parameters. NOE is routinely utilized to determine the structures of medium-to-large size biomolecules and characterize proteinâ??protein, proteinâ??RNA, proteinâ??DNA, and proteinâ??ligand interactions in aqueous solutions. Typical [1H,1H] NOESY pulse sequences incorporate water suppression schemes to reduce the water signal that dominates 1H-detected spectra and minimize NOE intensity losses due to unwanted polarization exchange between water and labile protons. However, at high- and ultra-high magnetic fields, the excitation of the water signal during the execution of the NOESY pulse sequences may cause significant attenuation of NOE cross-peak intensities. Using an evolutionary algorithm coupled with artificial intelligence, we recently designed high-fidelity pulses [Water irrAdiation DEvoid (WADE) pulses] that elude water excitation and irradiate broader bandwidths relative to commonly used pulses. Here, we demonstrate that WADE pulses, implemented into the 2D [1H,1H] NOESY experiments, increase the intensity of the NOE cross-peaks for labile and, to a lesser extent, non-exchangeable protons. We applied the new 2D [1H,1H] WADE-NOESY pulse sequence to two well-folded, medium-size proteins, i.e., the K48C mutant of ubiquitin and the Raf kinase inhibitor protein. We observed a net increase of the NOE intensities varying from 30 to 170% compared to the commonly used NOESY experiments. The new WADE pulses can be easily engineered into 2D and 3D homo- and hetero-nuclear NOESY pulse sequences to boost their sensitivity.
Overhauser Dynamic Nuclear Polarization: A Tool for Building Maps of Hydration Water #DNPNMR #ODNP #Review
From The DNP-NMR Blog:
Overhauser Dynamic Nuclear Polarization: A Tool for Building Maps of Hydration Water #DNPNMR #ODNP #Review
Franck, John M. “Overhauser Dynamic Nuclear Polarization: A Tool for Building Maps of Hydration Water.” Biophysical Journal 118, no. 3, Supplement 1 (February 7, 2020): 487a.
https://doi.org/10.1016/j.bpj.2019.11.2695.
nmrlearner
News from NMR blogs
0
10-19-2020 05:07 PM
Characterizing oils in oil-water mixtures inside porous media by Overhauser dynamic nuclear polarization #DNPNMR #ODNP
From The DNP-NMR Blog:
Characterizing oils in oil-water mixtures inside porous media by Overhauser dynamic nuclear polarization #DNPNMR #ODNP
Chen, Junfei, Jiwen Feng, Fang Chen, Zhen Zhang, Li Chen, Zhekai Zhang, Rugang Liao, Maili Liu, and Chaoyang Liu. “Characterizing Oils in Oil-Water Mixtures inside Porous Media by Overhauser Dynamic Nuclear Polarization.” Fuel 257 (December 2019): 116107.
https://doi.org/10.1016/j.fuel.2019.116107.
nmrlearner
News from NMR blogs
0
04-09-2020 05:35 AM
Chapter Sixteen - Overhauser Dynamic Nuclear Polarization Studies on Local Water Dynamics #DNPNMR
From The DNP-NMR Blog:
Chapter Sixteen - Overhauser Dynamic Nuclear Polarization Studies on Local Water Dynamics #DNPNMR
p.p1 {margin: 0.0px 0.0px 0.0px 36.0px; text-indent: -36.0px; font: 12.0px Helvetica}
Kaminker, I., R. Barnes, and S. Han, Chapter Sixteen - Overhauser Dynamic Nuclear Polarization Studies on Local Water Dynamics, in Methods in Enzymology, Z.Q. Peter and W. Kurt, Editors. 2015, Academic Press. p. 457-483.
http://www.sciencedirect.com/science/article/pii/S0076687915004000
Quantitative cw Overhauser effect dynamic nuclear polarization for the analysis of local water dynamics
From The DNP-NMR Blog:
Quantitative cw Overhauser effect dynamic nuclear polarization for the analysis of local water dynamics
Franck, J.M., et al., Quantitative cw Overhauser effect dynamic nuclear polarization for the analysis of local water dynamics. Prog Nucl Magn Reson Spectrosc, 2013. 74(0): p. 33-56.
http://www.ncbi.nlm.nih.gov/pubmed/24083461
nmrlearner
News from NMR blogs
0
11-21-2013 01:14 AM
Quantitative cw Overhauser Dynamic Nuclear Polarization for the Analysis of Local Water Dynamics
Quantitative cw Overhauser Dynamic Nuclear Polarization for the Analysis of Local Water Dynamics
Publication date: Available online 4 July 2013
Source:Progress in Nuclear Magnetic Resonance Spectroscopy</br>
Author(s): John M. Franck , Anna Pavlova , John A. Scott , Songi Han</br>
Liquid state Overhauser Effect Dynamic Nuclear Polarization (ODNP) has experienced a recent resurgence of interest. The ODNP technique described here relies on the double resonance of electron spin resonance (ESR) at the most common, i.e. X-band (~ 10 GHz), frequency and 1H nuclear...
nmrlearner
Journal club
0
07-05-2013 08:03 AM
[NMR paper] Application of Reductive 13C-Methylation of Lysines to Enhance the Sensitivity of Conventional NMR Methods.
Application of Reductive 13C-Methylation of Lysines to Enhance the Sensitivity of Conventional NMR Methods.
Application of Reductive 13C-Methylation of Lysines to Enhance the Sensitivity of Conventional NMR Methods.
Molecules. 2013;18(6):7103-19
Authors: Chavan TS, Abraham S, Gaponenko V
Abstract
NMR is commonly used to investigate macromolecular interactions. However, sensitivity problems hamper its use for studying such interactions at low physiologically relevant concentrations. At high concentrations, proteins or peptides tend to...
nmrlearner
Journal club
0
06-20-2013 10:08 AM
On the measurement of 15N-{1H} nuclear Overhauser effects. 2. Effects of the saturati
On the measurement of 15N-{1H} nuclear Overhauser effects. 2. Effects of the saturation scheme and water signal suppression
Publication year: 2010
Source: Journal of Magnetic Resonance, In Press, Accepted Manuscript, Available online 24 September 2010</br>
Fabien, Ferrage , Amy, Reichel , Shibani, Battacharya , David, Cowburn , Ranajeet, Ghose</br>
Measurement of steady-state 15N-{1H} nuclear Overhauser effects forms a cornerstone of most methods to determine protein backbone dynamics from spin-relaxation data, since it is the most reliable probe of very fast motions on the ps-ns...
Water irradiation devoid pulses enhance the sensitivity of 1H,1H nuclear Overhauser effects
Linear Mode
