Co-solute paramagnetic relaxation enhancement (PRE) is an attractive way to speed up data acquisition in NMR spectroscopy by shortening the T 1 relaxation time of the nucleus of interest and thus the necessary recycle delay. Here, we present the rationale to utilize high-spin iron(III) as the optimal transition metal for this purpose and characterize the properties of its neutral chelate form Fe(DO3A) as a suitable PRE agent. Fe(DO3A) effectively reduces the T 1 values across the entire sequence of the intrinsically disordered protein α-synuclein with negligible impact on line width. The agent is better suited than currently used alternatives, shows no specific interaction with the polypeptide chain and, due to its high relaxivity, is effective at low concentrations and in â??proton-lessâ?? NMR experiments. By using Fe(DO3A) we were able to complete the backbone resonance assignment of a highly fibrillogenic peptide from α1-antitrypsin by acquiring the necessary suite of multidimensional NMR datasets in 3Â*h.
[NMR paper] Ligand orientation in a membrane-embedded receptor site revealed by solid-state NMR with paramagnetic relaxation enhancement.
Ligand orientation in a membrane-embedded receptor site revealed by solid-state NMR with paramagnetic relaxation enhancement.
Related Articles Ligand orientation in a membrane-embedded receptor site revealed by solid-state NMR with paramagnetic relaxation enhancement.
Org Biomol Chem. 2015 Jan 13;
Authors: Whittaker CA, Patching SG, Esmann M, Middleton DA
Abstract
NMR relaxation enhancement by paramagnetic metals provides powerful restraints on the three-dimensional structures of proteins in solution, and this approach has...
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Requirements on Paramagnetic Relaxation Enhancement Data for Membrane Protein Structure Determination by NMR
Requirements on Paramagnetic Relaxation Enhancement Data for Membrane Protein Structure Determination by NMR
6 June 2012
Publication year: 2012
Source:Structure, Volume 20, Issue 6</br>
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Nuclear magnetic resonance (NMR) structure calculations of the ?-helical integral membrane proteins DsbB, GlpG, and halorhodopsin show that distance restraints from paramagnetic relaxation enhancement (PRE) can provide sufficient structural information to determine their structure with an accuracy of about 1.5*Å in the absence of other long-range conformational restraints. Our...
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02-03-2013 10:13 AM
[Question from NMRWiki Q&A forum] why we are seeing negative PREs in paramagnetic relaxation enhancement experiment?
why we are seeing negative PREs in paramagnetic relaxation enhancement experiment?
Hi NMR Wiki users,
I'm using two point method(Marius Clore and Junji Iwahara methods) to measure the PREs, but in my experiment I observed so many negative PREs. Is there any chance to use these negative PREs data in structure calculation.How can I get all positive PREs,otherwise I lose half of the data in my calculations.
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12-11-2012 07:30 PM
Paramagnetic relaxation enhancement to improve sensitivity of fast NMR methods: application to intrinsically disordered proteins
Paramagnetic relaxation enhancement to improve sensitivity of fast NMR methods: application to intrinsically disordered proteins
Abstract We report enhanced sensitivity NMR measurements of intrinsically disordered proteins in the presence of paramagnetic relaxation enhancement (PRE) agents such as Ni2+-chelated DO2A. In proton-detected 1H-15N SOFAST-HMQC and carbon-detected (H-flip)13CO-15N experiments, faster longitudinal relaxation enables the usage of even shorter interscan delays. This results in higher NMR signal intensities per units of experimental time, without adverse line...
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10-21-2011 10:04 PM
Solid-State NMR of a Large Membrane Protein by Paramagnetic Relaxation Enhancement.
Solid-State NMR of a Large Membrane Protein by Paramagnetic Relaxation Enhancement.
Solid-State NMR of a Large Membrane Protein by Paramagnetic Relaxation Enhancement.
J Phys Chem Lett. 2011 Jul 21;2(14):1836-1841
Authors: Tang M, Berthold DA, Rienstra CM
Membrane proteins play an important role in many biological functions. Solid-state NMR spectroscopy is uniquely suited for studying structure and dynamics of membrane proteins in a membranous environment. The major challenge to obtain high quality solid-state NMR spectra of membrane proteins is...
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08-16-2011 01:19 PM
[Question from NMRWiki Q&A forum] Relaxation editing vr paramagnetic relaxation enhancement experiments - 13C CP-MAS NM
Relaxation editing vr paramagnetic relaxation enhancement experiments - 13C CP-MAS NMR
I am a beginner in NMR spectroscopy and I would like to learn more about relaxation editing experiments vs PRE. A colleague of mine is doing the 13C CP-MAS NMR experim. and he using cellulose II powder, regenerated cellulose and milled reg cellulose. We are interested in C4 resonance of cellulose II, good resolved resonance, to better understand the supramolecular structure of cellulose II. As experiments: long relaxation experiments - PRE with aqueous CuSO4 solution of certain concentration, does the...
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10-15-2010 05:16 PM
Solid-state NMR paramagnetic relaxation enhancement immersion depth studies in phosph
Solid-state NMR paramagnetic relaxation enhancement immersion depth studies in phospholipid bilayers.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--linkinghub.elsevier.com-ihub-images-PubMedLink.gif Related Articles Solid-state NMR paramagnetic relaxation enhancement immersion depth studies in phospholipid bilayers.
J Magn Reson. 2010 Aug 24;
Authors: Chu S, Maltsev S, Emwas AH, Lorigan GA
A new approach for determining the membrane immersion depth of a spin-labeled probe has been developed using paramagnetic relaxation enhancement (PRE)...
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09-22-2010 05:27 AM
[Question from NMRWiki Q&A forum] Does anyone know something about paramagnetic relaxation enhancement (PRE)?
Does anyone know something about paramagnetic relaxation enhancement (PRE)?
Does anyone know something about paramagnetic relaxation enhancement (PRE)? i would like to try this method on my cellulose materials. What info can you take out of it? Thank you very much.
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Optimized co-solute paramagnetic relaxation enhancement for the rapid NMR analysis of a highly fibrillogenic peptide
Linear Mode
