Related ArticlesThe solution conformations of amino acids from molecular dynamics simulations of Gly-X-Gly peptides: comparison with NMR parameters.
Biochem Cell Biol. 1998;76(2-3):164-70
Authors: van der Spoel D
The conformations that amino acids can adopt in the random coil state are of fundamental interest in the context of protein folding research and studies of protein-peptide interactions. To date, no detailed quantitative data from experimental studies have been reported; only nuclear magnetic resonance parameters such as chemical shifts and J coupling constants have been reported. These experimental nuclear magnetic resonance data represent averages over multiple conformations, and hence they do not provide unique structural information. I have performed relatively long (2.5 ns) molecular dynamics simulations of Gly-X-Gly tripeptides, surrounded by explicit water molecules, where X represents eight different amino acids with long side chains. From the trajectories one can calculate time averaged backbone chemical shifts and 3J(NH alpha) coupling constants and compare these with experimental data. These calculated quantities are quite close to the experimental values for most amino acids, suggesting that these simulations are a good model for the random coil state of the tripeptides. On the basis of my simulations I predict 3J(alphabeta) coupling constants and present dihedral distributions for the phi, psi, as well as chi1 and chi2 angles. Finally, I present correlation plots for these dihedral angles.
Combining NMR ensembles and molecular dynamics simulations provides more realistic models of protein structures in solution and leads to better chemical shift prediction
Combining NMR ensembles and molecular dynamics simulations provides more realistic models of protein structures in solution and leads to better chemical shift prediction
Abstract While chemical shifts are invaluable for obtaining structural information from proteins, they also offer one of the rare ways to obtain information about protein dynamics. A necessary tool in transforming chemical shifts into structural and dynamic information is chemical shift prediction. In our previous work we developed a method for 4D prediction of protein 1H chemical shifts in which molecular motions, the...
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Structure and Dynamics of the A?21–30 Peptide from the Interplay of NMR Experiments and Molecular Simulations
Structure and Dynamics of the A?21–30 Peptide from the Interplay of NMR Experiments and Molecular Simulations
Nicolas L. Fawzi, Aaron H. Phillips, Jory Z. Ruscio, Michaeleen Doucleff, David E. Wemmer and Teresa Head-Gordon
Journal of the American Chemical Society
DOI: 10.1021/ja204315n
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA
http://feeds.feedburner.com/~r/acs/jacsat/~4/bEQEah_ik60
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[NMR paper] Study of the behaviour of amino acids in aqueous solution by time-domain NMR and high
Study of the behaviour of amino acids in aqueous solution by time-domain NMR and high-resolution NMR.
Related Articles Study of the behaviour of amino acids in aqueous solution by time-domain NMR and high-resolution NMR.
Magn Reson Chem. 2005 Apr;43(4):309-15
Authors: Khallouk M, Rutledge DN, Silva AM, Delgadillo I
The study of protein hydration by time-domain NMR is complicated by the great number of interactions involved, resulting from the presence of several amino acids and the possible modifications produced by the various structures....
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[NMR paper] NMR-detected hydrogen exchange and molecular dynamics simulations provide structural
NMR-detected hydrogen exchange and molecular dynamics simulations provide structural insight into fibril formation of prion protein fragment 106-126.
Related Articles NMR-detected hydrogen exchange and molecular dynamics simulations provide structural insight into fibril formation of prion protein fragment 106-126.
Proc Natl Acad Sci U S A. 2003 Dec 9;100(25):14790-5
Authors: Kuwata K, Matumoto T, Cheng H, Nagayama K, James TL, Roder H
PrP106-126, a peptide corresponding to residues 107-127 of the human prion protein, induces neuronal cell...
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11-24-2010 09:16 PM
[NMR paper] 14N NMR relaxation times of several protein amino acids in aqueous solution--comparis
14N NMR relaxation times of several protein amino acids in aqueous solution--comparison with 17O NMR data and estimation of the relative hydration numbers in the cationic and zwitterionic forms.
Related Articles 14N NMR relaxation times of several protein amino acids in aqueous solution--comparison with 17O NMR data and estimation of the relative hydration numbers in the cationic and zwitterionic forms.
J Magn Reson. 2003 Oct;164(2):294-303
Authors: Troganis AN, Tsanaktsidis C, Gerothanassis IP
The 14N nuclear magnetic resonance (NMR)...
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[NMR paper] Molecular dynamics simulations of photoactive yellow protein (PYP) in three states of
Molecular dynamics simulations of photoactive yellow protein (PYP) in three states of its photocycle: a comparison with X-ray and NMR data and analysis of the effects of Glu46 deprotonation and mutation.
Related Articles Molecular dynamics simulations of photoactive yellow protein (PYP) in three states of its photocycle: a comparison with X-ray and NMR data and analysis of the effects of Glu46 deprotonation and mutation.
Eur Biophys J. 2002 Dec;31(7):504-20
Authors: Antes I, Thiel W, van Gunsteren WF
Photoactive yellow protein (PYP) is a...
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Using NMR Chemical Shifts as Structural Restraints in Molecular Dynamics Simulations
Using NMR Chemical Shifts as Structural Restraints in Molecular Dynamics Simulations of Proteins.
Related Articles Using NMR Chemical Shifts as Structural Restraints in Molecular Dynamics Simulations of Proteins.
Structure. 2010 Aug 11;18(8):923-933
Authors: Robustelli P, Kohlhoff K, Cavalli A, Vendruscolo M
We introduce a procedure to determine the structures of proteins by incorporating NMR chemical shifts as structural restraints in molecular dynamics simulations. In this approach, the chemical shifts are expressed as differentiable...
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The Role of Basic Amino Acids in the Molecular Recognition of Hydroxyapatite by Stath
The Role of Basic Amino Acids in the Molecular Recognition of Hydroxyapatite by Statherin using Solid State NMR.
Related Articles The Role of Basic Amino Acids in the Molecular Recognition of Hydroxyapatite by Statherin using Solid State NMR.
Surf Sci. 2010 Aug 15;604(15-16):L39-L42
Authors: Ndao M, Ash JT, Stayton PS, Drobny GP
Organisms use proteins such as statherin to control the growth of hydroxyapatite (HAP), which is the principal component of teeth and bone. Though much emphasis has been placed on the acidic character of these...
The solution conformations of amino acids from molecular dynamics simulations of Gly-
Linear Mode
