期刊
JOURNAL OF BIOMOLECULAR NMR
卷 53, 期 3, 页码 223-246出版社
SPRINGER
DOI: 10.1007/s10858-012-9634-5
关键词
Structure refinement; Protein; Molecular dynamics simulation; NMR; (3)J-coupling constants
资金
- National Center of Competence in Research (NCCR) in Structural Biology
- Swiss National Science Foundation [200020-137827]
- European Research Council [228076]
Structural knowledge about proteins is mainly derived from values of observables, measurable in NMR spectroscopic or X-ray diffraction experiments, i.e. absorbed or scattered intensities, through theoretically derived relationships between structural quantities such as atom positions or torsional angles on the one hand and observable quantities such as squared structure factor amplitudes, NOE intensities or (3) J-coupling constants on the other. The standardly used relation connecting (3) J-couplings to torsional angles is the Karplus relation, which is used in protein structure refinement as well as in the evaluation of simulated properties of proteins. The accuracy of the simple and generalised Karplus relations is investigated using side-chain structural and (3) J (alpha beta)-coupling data for three different proteins, Plastocyanin, Lysozyme, and FKBP, for which such data are available. The results show that the widely used Karplus relations are only a rough estimate for the relation between (3) J (alpha beta)-couplings and the corresponding chi(1)-angle in proteins.
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