Related ArticlesCapturing Conformational States in Proteins Using Sparse Paramagnetic NMR Data.
PLoS One. 2015;10(5):e0127053
Authors: Pilla KB, Leman JK, Otting G, Huber T
Abstract
Capturing conformational changes in proteins or protein-protein complexes is a challenge for both experimentalists and computational biologists. Solution nuclear magnetic resonance (NMR) is unique in that it permits structural studies of proteins under greatly varying conditions, and thus allows us to monitor induced structural changes. Paramagnetic effects are increasingly used to study protein structures as they give ready access to rich structural information of orientation and long-range distance restraints from the NMR signals of backbone amides, and reliable methods have become available to tag proteins with paramagnetic metal ions site-specifically and at multiple sites. In this study, we show how sparse pseudocontact shift (PCS) data can be used to computationally model conformational states in a protein system, by first identifying core structural elements that are not affected by the environmental change, and then computationally completing the remaining structure based on experimental restraints from PCS. The approach is demonstrated on a 27 kDa two-domain NS2B-NS3 protease system of the dengue virus serotype 2, for which distinct closed and open conformational states have been observed in crystal structures. By changing the input PCS data, the observed conformational states in the dengue virus protease are reproduced without modifying the computational procedure. This data driven Rosetta protocol enables identification of conformational states of a protein system, which are otherwise difficult to obtain either experimentally or computationally.
PMID: 25992808 [PubMed - as supplied by publisher]
Utilization of paramagnetic relaxation enhancements for high-resolution NMR structure determination of a soluble loop-rich protein with sparse NOE distance restraints
Utilization of paramagnetic relaxation enhancements for high-resolution NMR structure determination of a soluble loop-rich protein with sparse NOE distance restraints
Abstract
NMR structure determination of soluble proteins depends in large part on distance restraints derived from NOE. In this study, we examined the impact of paramagnetic relaxation enhancement (PRE)-derived distance restraints on protein structure determination. A high-resolution structure of the loop-rich soluble protein Sin1 could not be determined by conventional NOE-based...
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[NMR paper] Frontispiece: probing transient conformational States of proteins by solid-state r1? relaxation-dispersion NMR spectroscopy.
Frontispiece: probing transient conformational States of proteins by solid-state r1? relaxation-dispersion NMR spectroscopy.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--media.wiley.com-assets-2250-98-WileyOnlineLibrary-Button_120x27px_FullText.gif Related Articles Frontispiece: probing transient conformational States of proteins by solid-state r1? relaxation-dispersion NMR spectroscopy.
Angew Chem Int Ed Engl. 2014 Apr 22;53(17)
Authors: Ma P, Haller JD, Zajakala J, Macek P, Sivertsen AC, Willbold D, Boisbouvier J,...
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[NMR paper] Probing Transient Conformational States of Proteins by Solid-State R1? Relaxation-Dispersion NMR Spectroscopy.
Probing Transient Conformational States of Proteins by Solid-State R1? Relaxation-Dispersion NMR Spectroscopy.
Related Articles Probing Transient Conformational States of Proteins by Solid-State R1? Relaxation-Dispersion NMR Spectroscopy.
Angew Chem Int Ed Engl. 2014 Mar 18;
Authors: Ma P, Haller JD, Zajakala J, Macek P, Sivertsen AC, Willbold D, Boisbouvier J, Schanda P
Abstract
The function of proteins depends on their ability to sample a variety of states differing in structure and free energy. Deciphering how the various thermally...
Al NMR: a novel NMR data processing program optimized for sparse sampling
Al NMR: a novel NMR data processing program optimized for sparse sampling
Abstract Sparse sampling in biomolecular multidimensional NMR offers increased acquisition speed and resolution and, if appropriate conditions are met, an increase in sensitivity. Sparse sampling of indirectly detected time domains combined with the direct truly multidimensional Fourier transform has elicited particular attention because of the ability to generate a final spectrum amenable to traditional analysis techniques. A number of sparse sampling schemes have been described including radial sampling, random...
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11-17-2011 01:47 AM
Narrowing the conformational space sampled by two-domain proteins with paramagnetic probes in both domains
Narrowing the conformational space sampled by two-domain proteins with paramagnetic probes in both domains
Abstract Calmodulin is a two-domain protein which in solution can adopt a variety of conformations upon reorientation of its domains. The maximum occurrence (MO) of a set of calmodulin conformations that are representative of the overall conformational space possibly sampled by the protein, has been calculated from the paramagnetism-based restraints. These restraints were measured after inclusion of a lanthanide binding tag in the C-terminal domain to supplement the data obtained...
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08-13-2011 02:47 AM
[NMR paper] TOUCHSTONEX: protein structure prediction with sparse NMR data.
TOUCHSTONEX: protein structure prediction with sparse NMR data.
Related Articles TOUCHSTONEX: protein structure prediction with sparse NMR data.
Proteins. 2003 Nov 1;53(2):290-306
Authors: Li W, Zhang Y, Kihara D, Huang YJ, Zheng D, Montelione GT, Kolinski A, Skolnick J
TOUCHSTONEX, a new method for folding proteins that uses a small number of long-range contact restraints derived from NMR experimental NOE (nuclear Overhauser enhancement) data, is described. The method employs a new lattice-based, reduced model of proteins that explicitly...
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[NMR paper] De novo protein structure determination using sparse NMR data.
De novo protein structure determination using sparse NMR data.
Related Articles De novo protein structure determination using sparse NMR data.
J Biomol NMR. 2000 Dec;18(4):311-8
Authors: Bowers PM, Strauss CE, Baker D
We describe a method for generating moderate to high-resolution protein structures using limited NMR data combined with the ab initio protein structure prediction method Rosetta. Peptide fragments are selected from proteins of known structure based on sequence similarity and consistency with chemical shift and NOE data. Models...
Capturing Conformational States in Proteins Using Sparse Paramagnetic NMR Data.
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