Related ArticlesSolid-State NMR-Restrained Ensemble Dynamics of a Membrane Protein in Explicit Membranes.
Biophys J. 2015 Apr 21;108(8):1954-1962
Authors: Cheng X, Jo S, Qi Y, Marassi FM, Im W
Abstract
Solid-state NMR has been used to determine the structures of membrane proteins in native-like lipid bilayer environments. Most structure calculations based on solid-state NMR observables are performed using simulated annealing with restrained molecular dynamics and an energy function, where all nonbonded interactions are represented by a single, purely repulsive term with no contributions from van der Waals attractive, electrostatic, or solvation energy. To our knowledge, this is the first application of an ensemble dynamics technique performed in explicit membranes that uses experimental solid-state NMR observables to obtain the refined structure of a membrane protein together with information about its dynamics and its interactions with lipids. Using the membrane-bound form of the fd coat protein as a model membrane protein and its experimental solid-state NMR data, we performed restrained ensemble dynamics simulations with different ensemble sizes in explicit membranes. For comparison, a molecular dynamics simulation of fd coat protein was also performed without any restraints. The average orientation of each protein helix is similar to a structure determined by traditional single-conformer approaches. However, their variations are limited in the resulting ensemble of structures with one or two replicas, as they are under the strong influence of solid-state NMR restraints. Although highly consistent with all solid-state NMR observables, the ensembles of more than two replicas show larger orientational variations similar to those observed in the molecular dynamics simulation without restraints. In particular, in these explicit membrane simulations, Lys(40), residing at the C-terminal side of the*transmembrane helix, is observed to cause local membrane curvature. Therefore, compared to traditional single-conformer approaches in implicit environments, solid-state NMR restrained ensemble simulations in explicit membranes readily characterize not only protein dynamics but also protein-lipid interactions in detail.
PMID: 25902435 [PubMed - as supplied by publisher]
Solid-State NMR-Restrained Ensemble Dynamics of a Membrane Protein in Explicit Membranes
Solid-State NMR-Restrained Ensemble Dynamics of a Membrane Protein in Explicit Membranes
Publication date: 21 April 2015
Source:Biophysical Journal, Volume 108, Issue 8</br>
Author(s): Xi Cheng , Sunhwan Jo , Yifei Qi , Francesca*M. Marassi , Wonpil Im</br>
Solid-state NMR has been used to determine the structures of membrane proteins in native-like lipid bilayer environments. Most structure calculations based on solid-state NMR observables are performed using simulated annealing with restrained molecular dynamics and an energy function, where all nonbonded...
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04-22-2015 03:33 PM
NMR-Restrained Structure Calculations of Membrane Proteins in Implicit Lipid Bilayer Membranes
NMR-Restrained Structure Calculations of Membrane Proteins in Implicit Lipid Bilayer Membranes
Publication date: 27 January 2015
Source:Biophysical Journal, Volume 108, Issue 2, Supplement 1</br>
Author(s): Ye Tian , Charles Schwieters , Stanley Opella , Francesca Marassi</br>
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01-28-2015 05:28 PM
[NMR paper] Structural Dynamics and Conformational Equilibria of SERCA Regulatory Proteins in Membranes by Solid-State NMR Restrained Simulations.
Structural Dynamics and Conformational Equilibria of SERCA Regulatory Proteins in Membranes by Solid-State NMR Restrained Simulations.
Related Articles Structural Dynamics and Conformational Equilibria of SERCA Regulatory Proteins in Membranes by Solid-State NMR Restrained Simulations.
Biophys J. 2014 Jun 17;106(12):2566-2576
Authors: De Simone A, Mote KR, Veglia G
Abstract
Solid-state NMR spectroscopy is emerging as a powerful approach to determine structure, topology, and conformational dynamics of membrane proteins at the...
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06-19-2014 06:59 PM
Structural Dynamics and Conformational Equilibria of SERCA Regulatory Proteins in Membranes by Solid-State NMR Restrained Simulations
Structural Dynamics and Conformational Equilibria of SERCA Regulatory Proteins in Membranes by Solid-State NMR Restrained Simulations
Publication date: 17 June 2014
Source:Biophysical Journal, Volume 106, Issue 12</br>
Author(s): Alfonso De*Simone , Kaustubh*R. Mote , Gianluigi Veglia</br>
Solid-state NMR spectroscopy is emerging as a powerful approach to determine structure, topology, and conformational dynamics of membrane proteins at the atomic level. Conformational dynamics are often inferred and quantified from the motional averaging of the NMR parameters....
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06-18-2014 06:09 PM
NMR-Based Explicit Ensemble Dynamics Simulations of Membrane Protein
NMR-Based Explicit Ensemble Dynamics Simulations of Membrane Protein
Publication date: 28 January 2014
Source:Biophysical Journal, Volume 106, Issue 2, Supplement 1</br>
Author(s): Xi Cheng , Wonpil Im</br>
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01-29-2014 12:50 AM
NMR-Based Simulation Studies of Pf1 Coat Protein in Explicit Membranes
NMR-Based Simulation Studies of Pf1 Coat Protein in Explicit Membranes
Publication date: 6 August 2013
Source:Biophysical Journal, Volume 105, Issue 3</br>
Author(s): Xi Cheng , Sunhwan Jo , Francesca*M. Marassi , Wonpil Im</br>
As time- and ensemble-averaged measures, NMR observables contain information about both protein structure and dynamics. This work represents a computational study to extract such information for membrane proteins from orientation-dependent NMR observables: solid-state NMR chemical shift anisotropy and dipolar coupling, and solution NMR...
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08-07-2013 12:13 AM
An ensemble dynamics approach to decipher solid-state NMR observables of membrane proteins
An ensemble dynamics approach to decipher solid-state NMR observables of membrane proteins
February 2012
Publication year: 2012
Source:Biochimica et Biophysica Acta (BBA) - Biomembranes, Volume 1818, Issue 2</br>
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Solid-state NMR (SSNMR) is an invaluable tool for determining orientations of membrane proteins and peptides in lipid bilayers. Such orientational descriptions provide essential information about membrane protein functions. However, when a semi-static single conformer model is used to interpret various SSNMR observables, important dynamics information can...
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02-03-2013 10:13 AM
An ensemble dynamics approach to decipher solid-sate NMR observables of membrane proteins.
An ensemble dynamics approach to decipher solid-sate NMR observables of membrane proteins.
An ensemble dynamics approach to decipher solid-sate NMR observables of membrane proteins.
Biochim Biophys Acta. 2011 Aug 8;
Authors: Im W, Jo S, Kim T
Abstract
Solid-state NMR (SSNMR) is an invaluable tool for determining orientations of membrane proteins and peptides in lipid bilayers. Such orientational descriptions provide essential information about membrane protein functions. However, when a semi-static single conformer model is used to...
Solid-State NMR-Restrained Ensemble Dynamics of a Membrane Protein in Explicit Membranes.
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