Related ArticlesDetermination of the solution structure of Apo calbindin D9k by NMR spectroscopy.
J Mol Biol. 1995 Jun 2;249(2):441-62
Authors: Skelton NJ, Kördel J, Chazin WJ
The three-dimensional structure of apo calbindin D9k has been determined using constraints generated from nuclear magnetic resonance spectroscopy. The family of solution structures was calculated using a combination of distance geometry, restrained molecular dynamics, and hybrid relaxation matrix analysis of the nuclear Overhauser effect (NOE) cross-peak intensities. Errors and inconsistencies in the input constraints were identified using complete relaxation matrix analyses based on the results of preliminary structure calculations. The final input data consisted of 994 NOE distance constraints and 122 dihedral constraints, aided by the stereospecific assignment of the resonances from 21 beta-methylene groups and seven isopropyl groups of leucine and valine residues. The resulting family of 33 structures contain no violation of the distance constraints greater than 0.17 A or of the dihedral angle constraints greater than 10 degrees. The structures consist of a well-defined, antiparallel four-helix bundle, with a short anti-parallel beta-interaction between the two unoccupied calcium-binding loops. The root-mean-square deviation from the mean structure of the backbone heavy-atoms for the well-defined helical residues is 0.55 A. The remainder of the ion-binding loops, the linker loop connecting the two sub-domains of the protein, and the N and C termini exhibit considerable disorder between different structures in the ensemble. A comparison with the structure of the (Ca2+)2 state indicates that the largest changes associated with ion-binding occur in the middle of helix IV and in the packing of helix III onto the remainder of the protein. The change in conformation of these helices is associated with a subtle reorganization of many residues in the hydrophobic core, including some side-chains that are up to 15 A from the ion-binding site.
[Optimization of the methods for small peptide solution structure determination by NMR spectroscopy].
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Mol Biol (Mosk). 2010 Nov-Dec;44(6):1075-85
Authors:
NMR spectroscopy was recognized as a method of protein structure determination in solution. However, determination of the conformation of small peptides, which undergo fast molecular motions, remains a challenge. This is mainly caused by impossibility to collect required quantity of the distance and dihedral angle restraints from NMR spectra. At the same time, short charged peptides play an important role in a number of biological processes, in particular in pathogenesis of neurodegenerative...
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Macromolecular NMR spectroscopy for the non-spectroscopist: beyond macromolecular solution structure determination.
Macromolecular NMR spectroscopy for the non-spectroscopist: beyond macromolecular solution structure determination.
Macromolecular NMR spectroscopy for the non-spectroscopist: beyond macromolecular solution structure determination.
FEBS J. 2011 Jan 7;
Authors: Bieri M, Kwan AH, Mobli M, King GF, Mackay JP, Gooley PR
A strength of NMR spectroscopy is its ability to monitor, on an atomic level, molecular changes and interactions. In this article, which is intended for non-spectroscopists, we describe major uses of NMR in protein science beyond...
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Automated protein NMR structure determination in solution.
Automated protein NMR structure determination in solution.
Automated protein NMR structure determination in solution.
Methods Mol Biol. 2010;673:95-127
Authors: Gronwald W, Kalbitzer HR
The main drawback of protein NMR spectroscopy today is still the extensive amount of time required for solving a single structure. The main bottleneck in this respect is the manual evaluation of the experimental spectra. A clear solution to this challenge is the development of automated methods for this purpose. At the current stage of development, this goal has...
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09-14-2010 02:03 PM
[NMR paper] Determination of the NMR solution structure of a specific DNA complex of the Myb DNA-
Determination of the NMR solution structure of a specific DNA complex of the Myb DNA-binding domain.
Related Articles Determination of the NMR solution structure of a specific DNA complex of the Myb DNA-binding domain.
J Biomol NMR. 1995 Nov;6(3):294-305
Authors: Morikawa S, Ogata K, Sekikawa A, Sarai A, Ishii S, Nishimura Y, Nakamura H
The solution structure of a specific DNA complex of the minimum DNA-binding domain of the mouse c-Myb protein was determined by distance geometry calculations using a set of 1732 nuclear Overhauser enhancement...
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[NMR paper] Solution structure determination by NMR spectroscopy of a synthetic peptide correspon
Solution structure determination by NMR spectroscopy of a synthetic peptide corresponding to a putative amphipathic alpha-helix of spiralin: resonance assignment, distance geometry and simulated annealing.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--linkinghub.elsevier.com-ihub-images-PubMedLink.gif Related Articles Solution structure determination by NMR spectroscopy of a synthetic peptide corresponding to a putative amphipathic alpha-helix of spiralin: resonance assignment, distance geometry and simulated annealing.
Biochim Biophys Acta. 1995 May...
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[NMR paper] Determination of the three-dimensional solution structure of the histidine-containing
Determination of the three-dimensional solution structure of the histidine-containing phosphocarrier protein HPr from Escherichia coli using multidimensional NMR spectroscopy.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www3.interscience.wiley.com-aboutus-images-wiley_interscience_pubmed_logo_FREE_120x27.gif Related Articles Determination of the three-dimensional solution structure of the histidine-containing phosphocarrier protein HPr from Escherichia coli using multidimensional NMR spectroscopy.
Eur J Biochem. 1992 Dec 15;210(3):881-91
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[NMR paper] Protein structure determination in solution by NMR spectroscopy.
Protein structure determination in solution by NMR spectroscopy.
Related Articles Protein structure determination in solution by NMR spectroscopy.
J Biol Chem. 1990 Dec 25;265(36):22059-62
Authors: Wüthrich K
The introduction of nuclear magnetic resonance (NMR) spectroscopy as a second method for protein structure determination at atomic resolution, in addition to x-ray diffraction in single crystals, has already led to a significant increase in the number of known protein structures. The NMR method provides data that are in many ways...
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[NMR paper] NMR investigation and secondary structure of domains I and II of rat brain calbindin
NMR investigation and secondary structure of domains I and II of rat brain calbindin D28k (1-93).
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www3.interscience.wiley.com-aboutus-images-wiley_interscience_pubmed_logo_FREE_120x27.gif Related Articles NMR investigation and secondary structure of domains I and II of rat brain calbindin D28k (1-93).
Eur J Biochem. 1999 Jun;262(3):933-8
Authors: Klaus W, Grzesiek S, Labhardt AM, Buchwald P, Hunziker W, Gross MD, Kallick DA
Calbindin D28k, a member of the troponin C superfamily of...
Determination of the solution structure of Apo calbindin D9k by NMR spectroscopy.
Linear Mode
