Related ArticlesHigh-field EPR on membrane proteins - Crossing the gap to NMR.
Prog Nucl Magn Reson Spectrosc. 2013 Nov;75:1-49
Authors: Möbius K, Lubitz W, Savitsky A
Abstract
In this review on advanced EPR spectroscopy, which addresses both the EPR and NMR communities, considerable emphasis is put on delineating the complementarity of NMR and EPR concerning the measurement of molecular interactions in large biomolecules. From these interactions, detailed information can be revealed on structure and dynamics of macromolecules embedded in solution- or solid-state environments. New developments in pulsed microwave and sweepable cryomagnet technology as well as ultrafast electronics for signal data handling and processing have pushed to new horizons the limits of EPR spectroscopy and its multifrequency extensions concerning the sensitivity of detection, the selectivity with respect to interactions, and the resolution in frequency and time domains. One of the most important advances has been the extension of EPR to high magnetic fields and microwave frequencies, very much in analogy to what happens in NMR. This is exemplified by referring to ongoing efforts for signal enhancement in both NMR and EPR double-resonance techniques by exploiting dynamic nuclear or electron spin polarization via unpaired electron spins and their electron-nuclear or electron-electron interactions. Signal and resolution enhancements are particularly spectacular for double-resonance techniques such as ENDOR and PELDOR at high magnetic fields. They provide greatly improved orientational selection for disordered samples that approaches single-crystal resolution at canonical g-tensor orientations - even for molecules with small g-anisotropies. Exchange of experience between the EPR and NMR communities allows for handling polarization and resolution improvement strategies in an optimal manner. Consequently, a dramatic improvement of EPR detection sensitivity could be achieved, even for short-lived paramagnetic reaction intermediates. Unique structural and dynamic information is thus revealed that can hardly be obtained by any other analytical techniques. Micromolar quantities of sample molecules have become sufficient to characterize stable and transient reaction intermediates of complex molecular systems - offering highly interesting applications for chemists, biochemists and molecular biologists. In three case studies, representative examples of advanced EPR spectroscopy are reviewed: (I) High-field PELDOR and ENDOR structure determination of cation-anion radical pairs in reaction centers from photosynthetic purple bacteria and cyanobacteria (Photosystem I); (II) High-field ENDOR and ELDOR-detected NMR spectroscopy on the oxygen-evolving complex of Photosystem II; and (III) High-field electron dipolar spectroscopy on nitroxide spin-labelled bacteriorhodopsin for structure-function studies. An extended conclusion with an outlook to further developments and applications is also presented.
High-field EPR on Membrane Proteins – Crossing the Gap to NMR
High-field EPR on Membrane Proteins – Crossing the Gap to NMR
Publication date: Available online 29 July 2013
Source:Progress in Nuclear Magnetic Resonance Spectroscopy</br>
Author(s): Klaus Möbius , Wolfgang Lubitz , Anton Savitsky</br>
In this review on advanced EPR spectroscopy, which addresses both the EPR and NMR communities, considerable emphasis is put on delineating the complementarity of NMR and EPR concerning the measurement of molecular interactions in large biomolecules. From these interactions, detailed information can be revealed on structure and...
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07-29-2013 08:22 PM
Dynamic nuclear polarization methods in solids and solutions to explore membrane proteins and membrane systems
From The DNP-NMR Blog:
Dynamic nuclear polarization methods in solids and solutions to explore membrane proteins and membrane systems
Cheng, C.Y. and S. Han, Dynamic nuclear polarization methods in solids and solutions to explore membrane proteins and membrane systems. Annu Rev Phys Chem, 2013. 64(1): p. 507-32.
http://www.ncbi.nlm.nih.gov/pubmed/23331309
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07-08-2013 02:17 PM
Achieving high spatial resolution and high SNR in low-field MRI of hyperpolarised gases with Slow Low Angle SHot
From the The DNP-NMR Blog:
Achieving high spatial resolution and high SNR in low-field MRI of hyperpolarised gases with Slow Low Angle SHot
Safiullin, K., C. Talbot, and P.J. Nacher, Achieving high spatial resolution and high SNR in low-field MRI of hyperpolarised gases with Slow Low Angle SHot. J Magn Reson, 2013. 227(0): p. 72-86.
http://dx.doi.org/10.1016/j.jmr.2012.11.025
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
Time-shared HSQC-NOESY for accurate distance constraints measured at high-field in 15N-13C-ILV methyl labeled proteins
Time-shared HSQC-NOESY for accurate distance constraints measured at high-field in 15N-13C-ILV methyl labeled proteins
Abstract We present a time-shared 3D HSQC-NOESY experiment that enables one to simultaneously record 13C- and 15N-dispersed spectra in Ile, Leu and Val (ILV) methyl-labeled samples. This experiment is designed to delineate the two spectra which would otherwise overlap with one another when acquired together. These spectra display nOe correlations in the detected proton dimension, i.e. with maximum resolution. This is in contrast to NOESY-HSQC types of experiments that...
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01-09-2011 12:46 PM
[NMR paper] High-resolution NMR spectroscopy of membrane proteins in aligned bicelles.
High-resolution NMR spectroscopy of membrane proteins in aligned bicelles.
Related Articles High-resolution NMR spectroscopy of membrane proteins in aligned bicelles.
J Am Chem Soc. 2004 Dec 1;126(47):15340-1
Authors: De Angelis AA, Nevzorov AA, Park SH, Howell SC, Mrse AA, Opella SJ
High-resolution solid-state NMR spectra can be obtained from uniformly (15)N-labeled membrane proteins in magnetically aligned bicelles. Fast uniaxial diffusion about the axis of the bilayer normal results in single-line spectra that contain the orientational...