Add to ORKGOriented solid-state NMR in combination with multiple-residue-specific (15)N labeling and extensive numerical spectral analysis is proposed to determine helix conformations of large membrane proteins in native membranes. The method is demonstrated on uniaxially oriented samples of (15)N-methionine, -valine, and -glycine-labeled bacteriorhopsin in native purple membranes. Experimental two-dimensional (1)H-(15)N dipole-dipole coupling versus (15)N chemical shift spectra for all samples are analyzed numerically to establish combined constraints on the orientation of the seven transmembrane helices relative to the membrane bilayer normal. Since the method does not depend on specific resonance assignments and proves robust toward nonidealities i...
AbstractPolyalanine-based peptides were prepared by solid-phase peptide synthesis, labeled with 15N ...
As a method for the structure determination of integral membrane proteins or other large macromolecu...
As a method for the structure determination of integral membrane proteins or other large macromolecu...
Oriented solid-state NMR in combination with multiple-residue-specific (15)N labeling and extensive ...
AbstractOriented solid-state NMR in combination with multiple-residue-specific 15N labeling and exte...
ABSTRACT Oriented solid-state NMR in combination with multiple-residue-specific 15N labeling and ext...
We report for the first time, oriented-sample solid-state NMR experiments, specifically polarization...
We report for the first time, oriented-sample solid-state NMR experiments, specifically polarization...
Oriented sample solid state NMR techniques have been routinely employed to determine the structures ...
AbstractStructural models of membrane proteins can be refined with sets of multiple orientation cons...
AbstractA computational method to calculate the orientation of membrane-associated α-helices with re...
Structural models of membrane proteins can be refined with sets of multiple orientation constraints ...
AbstractHelical peptides reconstituted into oriented phospholipid bilayers were studied by proton-de...
Solid-state NMR is a versatile and powerful tool for determining the dynamic structure of membrane p...
proteins. This technique may prove particularly useful when studying large proteins that are difficu...
AbstractPolyalanine-based peptides were prepared by solid-phase peptide synthesis, labeled with 15N ...
As a method for the structure determination of integral membrane proteins or other large macromolecu...
As a method for the structure determination of integral membrane proteins or other large macromolecu...
Oriented solid-state NMR in combination with multiple-residue-specific (15)N labeling and extensive ...
AbstractOriented solid-state NMR in combination with multiple-residue-specific 15N labeling and exte...
ABSTRACT Oriented solid-state NMR in combination with multiple-residue-specific 15N labeling and ext...
We report for the first time, oriented-sample solid-state NMR experiments, specifically polarization...
We report for the first time, oriented-sample solid-state NMR experiments, specifically polarization...
Oriented sample solid state NMR techniques have been routinely employed to determine the structures ...
AbstractStructural models of membrane proteins can be refined with sets of multiple orientation cons...
AbstractA computational method to calculate the orientation of membrane-associated α-helices with re...
Structural models of membrane proteins can be refined with sets of multiple orientation constraints ...
AbstractHelical peptides reconstituted into oriented phospholipid bilayers were studied by proton-de...
Solid-state NMR is a versatile and powerful tool for determining the dynamic structure of membrane p...
proteins. This technique may prove particularly useful when studying large proteins that are difficu...
AbstractPolyalanine-based peptides were prepared by solid-phase peptide synthesis, labeled with 15N ...
As a method for the structure determination of integral membrane proteins or other large macromolecu...
As a method for the structure determination of integral membrane proteins or other large macromolecu...