Journal
JOURNAL OF BIOMOLECULAR NMR
Volume 39, Issue 4, Pages 265-273Publisher
SPRINGER
DOI: 10.1007/s10858-007-9194-2
Keywords
molecular dynamics simulation; (3)J-coupling constant; Local-elevation search; Restrained simulation; Hen egg white lysozyme; GROMOS; Force field; Structure determination
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Introducing experimental values as restraints into molecular dynamics (MD) simulation to bias the values of particular molecular properties, such as nuclear Overhauser effect intensities or distances, dipolar couplings, (3)J-coupling constants, chemical shifts or crystallographic structure factors, towards experimental values is a widely used structure refinement method. Because multiple torsion angle values phi correspond to the same (3)J-coupling constant and high-energy barriers are separating those, restraining (3)J-coupling constants remains difficult. A method to adaptively enforce restraints using a local elevation (LE) potential energy function is presented and applied to (3)J-coupling constant restraining in an MD simulation of hen egg-white lysozyme (HEWL). The method succesfully enhances sampling of the restrained torsion angles until the 37 experimental (3)J-coupling constant values are reached, thereby also improving the agreement with the 1,630 experimental NOE atom-atom distance upper bounds. Afterwards the torsional angles phi are kept restrained by the built-up local-elevation potential energies.
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