期刊
JOURNAL OF BIOMOLECULAR NMR
卷 30, 期 3, 页码 233-244出版社
SPRINGER
DOI: 10.1007/s10858-004-3098-1
关键词
chemical shift prediction; NMR; protein chemical shift; secondary structural effects
For an amino acid in protein, its chemical shift, delta(phi, psi)(s), is expressed as a function of its backbone torsion angles (phi and psi) and secondary state (s): delta(phi, psi)(s) = delta(phi, psi)(coil) + Deltadelta(phi, psi)(s), where delta(phi, psi)(coil) represents its chemical shift at coil state (s - coil); Deltadelta(phi, psi)(s) (s = sheet or helix) is herein defined as secondary structural effect correction factor, which are quantitatively determined from Residue-specific Secondary Structure Shielding Surface (RSS) for (CO)-C-13, (13)Calpha, (13)Cbeta, (1)Halpha, N-15, and (HN)-H-1 nuclei. The secondary structural effect correction factors defined in this study differ from those in earlier investigations by separating out the backbone conformational effects. As a consequence, their magnitudes are significantly smaller than those earlier reported. The present Deltadelta(phi, psi)(sheet) and Deltadelta( phi, psi)(helix) were found varying little with backbone conformation and the 20 amino acids, specifically for (CO)-C-13, (13)Calpha, and (1)Halpha nuclei. This study also carries out some useful investigations on other chemical shift prediction approaches - the traditional shielding surfaces, SHIFTS, SHIFTX, PROSHIFT, and identifies some unexpected shortcomings with these methods. It provides some useful insights into understanding protein chemical shifts and Suggests a new route to improving chemical shifts prediction. The RSS surfaces were incorporated into the program PRSI [Wang and Jardetzky, J. Biomol. NMR, 28: 327-340 (2004)], which is available for academic users at http:// www.pronmr.com or by sending email to the author (yunjunwang@yahoo.com).
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