Here we show how fast dynamics between radicals and solvent molecules in liquid solutions can be detected by comparison of coupling factors determined by nuclear magnetic relaxation dispersion (NMRD) measurements and dynamic nuclear polarization (DNP) enhancement measurements at high magnetic field (9.2 T). This is important for a theoretical understanding of the Overhauser DNP mechanism at high magnetic fields and thus for optimization of the DNP agent/target system for high resolution liquid state NMR applications. Mixtures of the solution of TEMPOL radicals in water, toluene, acetone and DMSO have been investigated. The results are compared to the classical hard-sphere model and molecular dynamic simulations. Our results clearly indicate that fast sub-ps dynamics, which are not related to classical rotational or translational motion of the molecules, significantly contribute to the Overhauser DNP mechanism at high magnetic fields.
[NMR paper] Insights into the molecular basis of action of the AT1 antagonist losartan using a combined NMR spectroscopy and computational approach.
Insights into the molecular basis of action of the AT1 antagonist losartan using a combined NMR spectroscopy and computational approach.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--linkinghub.elsevier.com-ihub-images-PubMedLink.gif Related Articles Insights into the molecular basis of action of the AT1 antagonist losartan using a combined NMR spectroscopy and computational approach.
Biochim Biophys Acta. 2014 Mar;1838(3):1031-46
Authors: Zervou M, Cournia Z, Potamitis C, Patargias G, Durdagi S, Grdadolnik SG, Mavromoustakos T
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03-26-2014 12:44 PM
[NMR paper] Structure and Topology of the Huntingtin 1-17 Membrane Anchor by*a*Combined Solution and Solid-State NMR Approach.
Structure and Topology of the Huntingtin 1-17 Membrane Anchor by*a*Combined Solution and Solid-State NMR Approach.
Structure and Topology of the Huntingtin 1-17 Membrane Anchor by*a*Combined Solution and Solid-State NMR Approach.
Biophys J. 2013 Aug 6;105(3):699-710
Authors: Michalek M, Salnikov ES, Bechinger B
Abstract
The very amino-terminal domain of the huntingtin protein is directly located upstream of the protein's polyglutamine tract, plays a decisive role in several important properties of this large protein and in the development...
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08-13-2013 04:26 PM
Liquid state 1H high field NMR in food analysis
Liquid state 1H high field NMR in food analysis
October 2012
Publication year: 2012
Source:Progress in Nuclear Magnetic Resonance Spectroscopy, Volume 66</br>
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12-15-2012 09:51 AM
Liquid state 1H high field NMR in food analysis
Liquid state 1H high field NMR in food analysis
October 2012
Publication year: 2012
Source:Progress in Nuclear Magnetic Resonance Spectroscopy, Volume 66</br>
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nmrlearner
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12-01-2012 06:10 PM
Liquid state 1H high field NMR in food analysis
Liquid state 1H high field NMR in food analysis
Publication year: 2012
Source:Progress in Nuclear Magnetic Resonance Spectroscopy</br>
Luisa Mannina, Anatoly P. Sobolev, Stéphane Viel</br>
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nmrlearner
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03-09-2012 09:16 AM
Liquid stateH High Field NMR in Food Analysis
Liquid stateH High Field NMR in Food Analysis
Publication year: 2012
Source: Progress in Nuclear Magnetic Resonance Spectroscopy, Available online 7 February 2012</br>
Luisa*Mannina, Anatoly P.*Sobolev, Stéphane*Viel</br>
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02-10-2012 09:13 AM
High resolution NMR spectroscopy of nanocrystalline proteins at ultra-high magnetic field
High resolution NMR spectroscopy of nanocrystalline proteins at ultra-high magnetic field
Abstract Magic-angle spinning (MAS) solid-state NMR (SSNMR) spectroscopy of uniformly-13C,15N labeled protein samples provides insight into atomic-resolution chemistry and structure. Data collection efficiency has advanced remarkably in the last decade; however, the study of larger proteins is still challenged by relatively low resolution in comparison to solution NMR. In this study, we present a systematic analysis of SSNMR protein spectra acquired at 11.7, 17.6 and 21.1 Tesla (1H frequencies of...
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01-09-2011 12:46 PM
Nmrd
Hello!
Can someone explain to me how NMRD (nuclear magnetic relaxation dispersion) works? I found many papers where this technique was used but I could not find any explanations / pulse sequences for it. Essentially all I know is that you get a graph (vCPMG versus the transverse relaxation rate), from which you can extract information about time dynamic behaviour. So anything you can tell me is very welcome.
Also I don't know what the vCPMG frequency is (CPMG = Carr-Purcell-Meiboom-Glll).
best regards
Vladimir
High-field liquid state NMR hyperpolarization: a combined DNP/NMRD approach
Linear Mode
