[NMR paper] Determining the depth of insertion of dynamically invisible membrane peptides by gel-phase (1)H spin diffusion heteronuclear correlation NMR.
Related ArticlesDetermining the depth of insertion of dynamically invisible membrane peptides by gel-phase (1)H spin diffusion heteronuclear correlation NMR.
J Biomol NMR. 2013 Apr 20;
Authors: Wang T, Yao H, Hong M
Abstract
Solid-state NMR determination of the depth of insertion of membrane peptides and proteins has so far utilized (1)H spin diffusion and paramagnetic relaxation enhancement experiments, which are typically conducted in the liquid-crystalline phase of the lipid bilayer. For membrane proteins or peptide assemblies that undergo intermediate-timescale motion in the liquid-crystalline membrane, these approaches are no longer applicable because the protein signals are broadened beyond detection. Here we show that the rigid-solid HETCOR experiment, with an additional spin diffusion period, can be used to determine the depth of proteins in gel-phase lipid membranes, where the proteins are immobilized to give high-intensity solid-state NMR spectra. Demonstration on two membrane peptides with known insertion depths shows that well-inserted peptides give rise to high lipid cross peak intensities and low water cross peaks within a modest spin diffusion mixing time, while surface-bound peptides have higher water than lipid cross peaks. Furthermore, well-inserted membrane peptides have nearly identical (1)H cross sections as the lipid chains, indicating equilibration of the peptide and lipid magnetization. Using this approach, we measured the membrane topology of the ?-helical fusion peptide of the paramyxovirus, PIV5, in the anionic POPC/POPG membrane, in which the peptide undergoes intermediate-timescale motion at physiological temperature. The gel-phase HETCOR spectra indicate that the ?-helical fusion peptide is well inserted into the POPC/POPG bilayer, spanning both leaflets. This insertion motif gives insight into the functional role of the ?-helical PIV5 fusion peptide in virus-cell membrane fusion.
PMID: 23606274 [PubMed - as supplied by publisher]
[NMR paper] Electron Spin Density on the Axial His Ligand of High-Spin and Low-Spin Nitrophorin 2 Probed by Heteronuclear NMR Spectroscopy.
Electron Spin Density on the Axial His Ligand of High-Spin and Low-Spin Nitrophorin 2 Probed by Heteronuclear NMR Spectroscopy.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--pubs.acs.org-images-pubmed-acspubs.jpg Related Articles Electron Spin Density on the Axial His Ligand of High-Spin and Low-Spin Nitrophorin 2 Probed by Heteronuclear NMR Spectroscopy.
Inorg Chem. 2013 Jan 17;
Authors: Abriata LA, Zaballa ME, Berry RE, Yang F, Zhang H, Walker FA, Vila AJ
Abstract
The electronic structure of heme proteins is exquisitely tuned...
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Origin and removal of mixed-phase artifacts in gradient sensitivity enhanced heteronuclear single quantum correlation spectra
Origin and removal of mixed-phase artifacts in gradient sensitivity enhanced heteronuclear single quantum correlation spectra
Abstract Here we describe phasing anomalies observed in gradient sensitivity enhanced 15N-1H HSQC spectra, and analyze their origin. It is shown that, as a result of 15N off-resonance effects, dispersive contributions to the 1H signal become detectable, and lead to 15N-offset dependent phase errors. Strategies that effectively suppress these artifacts are presented.
Content Type Journal Article
Category Article
Pages 199-207
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09-30-2011 08:01 PM
Topology and immersion depth of an integral membrane protein by paramagnetic rates from dissolved oxygen
Topology and immersion depth of an integral membrane protein by paramagnetic rates from dissolved oxygen
Abstract In studies of membrane proteins, knowledge of protein topology can provide useful insight into both structure and function. In this work, we present a solution NMR method for the measurement the tilt angle and average immersion depth of alpha helices in membrane proteins, from analysis of the paramagnetic relaxation rate enhancements arising from dissolved oxygen. No modification to the micelle or protein is necessary, and the topology of both transmembrane and...
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Spin Diffusion Driven by R-Symmetry Sequences: Applications to Homonuclear Correlation Spectroscopy in MAS NMR of Biological and Organic Solids.
Spin Diffusion Driven by R-Symmetry Sequences: Applications to Homonuclear Correlation Spectroscopy in MAS NMR of Biological and Organic Solids.
Spin Diffusion Driven by R-Symmetry Sequences: Applications to Homonuclear Correlation Spectroscopy in MAS NMR of Biological and Organic Solids.
J Am Chem Soc. 2011 Mar 1;
Authors: Hou G, Yan S, Sun S, Han Y, Byeon IJ, Ahn J, Concel J, Samoson A, Gronenborn AM, Polenova T
We present a family of homonuclear (13)C-(13)Cmagic angle spinning spin diffusion experiments, based on R2(n)(v) (n = 1 and 2, v = 1...
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Spin Diffusion Driven by R-Symmetry Sequences: Applications to Homonuclear Correlation Spectroscopy in MAS NMR of Biological and Organic Solids
Spin Diffusion Driven by R-Symmetry Sequences: Applications to Homonuclear Correlation Spectroscopy in MAS NMR of Biological and Organic Solids
Guangjin Hou, Si Yan, Shangjin Sun, Yun Han, In-Ja L. Byeon, Jinwoo Ahn, Jason Concel, Ago Samoson, Angela M. Gronenborn and Tatyana Polenova
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja108650x/aop/images/medium/ja-2010-08650x_0001.gif
Journal of the American Chemical Society
DOI: 10.1021/ja108650x
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA...
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[NMR paper] 'Boomerang'-like insertion of a fusogenic peptide in a lipid membrane revealed by sol
'Boomerang'-like insertion of a fusogenic peptide in a lipid membrane revealed by solid-state 19F NMR.
Related Articles 'Boomerang'-like insertion of a fusogenic peptide in a lipid membrane revealed by solid-state 19F NMR.
Magn Reson Chem. 2004 Feb;42(2):195-203
Authors: Afonin S, Dürr UH, Glaser RW, Ulrich AS
Solid state (19)F NMR revealed the conformation and alignment of the fusogenic peptide sequence B18 from the sea urchin fertilization protein bindin embedded in flat phospholipid bilayers. Single (19)F labels were introduced into nine...
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[NMR paper] Membrane insertion of a lipidated ras peptide studied by FTIR, solid-state NMR, and n
Membrane insertion of a lipidated ras peptide studied by FTIR, solid-state NMR, and neutron diffraction spectroscopy.
Related Articles Membrane insertion of a lipidated ras peptide studied by FTIR, solid-state NMR, and neutron diffraction spectroscopy.
J Am Chem Soc. 2003 Apr 9;125(14):4070-9
Authors: Huster D, Vogel A, Katzka C, Scheidt HA, Binder H, Dante S, Gutberlet T, Zschörnig O, Waldmann H, Arnold K
Membrane binding of a doubly lipid modified heptapeptide from the C-terminus of the human N-ras protein was studied by Fourier transform...
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[NMR paper] Membrane protein topology probed by (1)H spin diffusion from lipids using solid-state
Membrane protein topology probed by (1)H spin diffusion from lipids using solid-state NMR spectroscopy.
Related Articles Membrane protein topology probed by (1)H spin diffusion from lipids using solid-state NMR spectroscopy.
J Am Chem Soc. 2002 Feb 6;124(5):874-83
Authors: Huster D, Yao X, Hong M
We describe a two-dimensional solid-state NMR technique to investigate membrane protein topology under magic-angle spinning conditions. The experiment detects the rate of (1)H spin diffusion from the mobile lipids to the rigid protein. While spin...
Determining the depth of insertion of dynamically invisible membrane peptides by gel-phase (1)H spin diffusion heteronuclear correlation NMR.
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