SOLUTION NMR

NMR Experiment
Experiment Type Sample Contents Ionic Strength Solvent pH Pressure Temprature (K)
NMR Spectrometer Information
Spectrometer Manufacturer Model Field Strength
1 Varian UNITYPLUS 750
NMR Refinement
Method Details Software
torsion angle dynamics REFINEMENT DETAILS CAN BE FOUND IN THE JRNL ARTICLE. TORSION ANGLE DYNAMICS CALCULATIONS WERE PERFORMED WITH THE PROGRAM DYANA (P.GUNTERT, C.MUMENTHALER, K.WUTHRICH, J.MOL.BIOL. (1997) VOL. 273, 283-298 FOR THE RESTRAINED ENERGY REFINEMENT. THE PROGRAM OPAL (P. LUGINBHUL, P. GUNTERT, M. BILLETER, K. WUTHRICH J. BIOMOL. NMR (1996), VOL.8, 136-146) WAS USED. THE AVERAGE OF THE RMSD VALUES IN A PAIRWISE COMPARISON OF THE 20 NMR CONFORMERS TO THE MEAN STRUCTURE AS DESCRIBED IN THE PAPER CITED ON *JRNL* RECORDS ABOVE IS 1.0 ANGSTROM FOR THE BACKBONE ATOMS OF RESIDUES 8- 116. THE AVERAGE OF THE RMSD VALUES IN A PAIRWISE COMPARISON TO THE MEAN STRUCTURE FOR RESIDUES 8-84, THUS INCLUDING THE BEST DEFINED FRAGMENT, IS 0.47 ANGSTROMS. THE AVERAGE OF THE RMSD VALUES IN A PAIRWISE COMPARISON TO THE MEAN STRUCTURE FOR RESIDUES 85-116, THUS INCLUDING THE WORSE DEFINED RESIDUES IS 1.41 ANGSTROMS. 1
NMR Ensemble Information
Conformer Selection Criteria target function
Conformers Calculated Total Number 100
Conformers Submitted Total Number 20
Representative Model 1 (?)
Computation: NMR Software
# Classification Version Software Name Author
1 refinement 2.6 OPAL LUGINBUHL, GUNTERT, BILLETER, WUTHRICH STRUCTURAL STATISTICS: ATOMIC RMS DIFFERENCES BACKBONE(N, CA, C', RESIDUES 8-116) 1.00 A BACKBONE(N, CA, C', RESIDUES 8-84) 0.47 A BACKBONE(N, CA, C', RESIDUES 85-116) 1.41 A
2 structure solution ? DYANA ?
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