SOLUTION NMR Experimental Data


Experimental Details
Sample Conditions
Sample Contents3mM d(5'-GGCAAGAAACGG-3')/d(5'-CCGTTTCTTGCC-3')
Solvent20mM potassium phosphate, 150 mM potassium chloride, 0.5mM EDTA pH 7.0
Ionic Strength150 KCl
pH7.0
Pressureambient
Temperature (K)293
Experiment(s):2D NOESY, DQF-COSY
Sample Contents(5'-GGCAAGAAACGG-3')/d(5'-CCGTTTCTTGCC-3') nucleotides 1-12; U-13C/15N
Solvent20mM potassium phosphate, 150 mM potassium chloride, 0.5mM EDTA pH 7.0
Ionic Strength150 KCl
pH7.0
Pressureambient
Temperature (K)293
Experiment(s):HCCHRELAY;HCCHTOCSY;cthsqc(with and without phage)
Sample Contents(5'-GGCAAGAAACGG-3')/d(5'-CCGTTTCTTGCC-3') nucleotides 13-24; U-13C/15N
Solvent20mM potassium phosphate, 150 mM potassium chloride, 0.5mM EDTA pH 7.0
Ionic Strength150 KCl
pH7.0
Pressureambient
Temperature (K)293
Experiment(s):HCCHRELAY;HCCHTOCSY;cthsqc(with and without phage)
Spectrometer Information
Manufacturer Model Field Strength
Bruker DMX 750.0
Bruker DMX 500.0
Bruker DMX 600.0
NMR Refinement
Method matrix relaxation, simulated annealing with residual dipolar couplings
Details The structure is based on a total of 434 restraints, 217 NOE derived, 90 dihedral, 31 Watson-Crick, and 91 residual dipolar coupling restraints
NMR Ensemble Information
Conformer Selection Criteria structures with the lowest energy
Conformers Calculated Total Number 20
Conformers Submitted Total Number 10
Representative Model Choice Rationale
1 n/a
Additional NMR Experimental Information
1 This structure was determined using 13C-H and 15N-H residual dipolar couplings
Computation: NMR Software
# Classification Software Name Author
1 iterative matrix relaxation version: 3.2 MARDIGRAS James
2 iterative matrix relaxation version: 5.2 CORMA James
3 refinement version: with residual dipolar patch X-PLOR Brunger, Tjandra