Table 1.
Goodness of Fit of ENSEMBLE Structures to Experimental Constraints
| Restraint | Target Energy Term | Target Energy Value | Calculated Energy Value |
|---|---|---|---|
| K2 alone | |||
| RDC | 15.000 | 1.326 | |
| PRE | 1.733 | 0.964 | |
| ACCESS | 6.641 | 5.099 | |
| R2 | r | 5.050 | 3.699 |
| δC′ | 11.640 | 11.611 | |
| δCα | 23.709 | 23.632 | |
| δCβ | 9.944 | 9.490 | |
| δHN | 1.414 | 1.146 | |
| δHα | 1.130 | 0.110 | |
| K2 with SDS | |||
| RDC | 10.500 | 1.659 | |
| PRE | 1.402 | 1.108 | |
| R2 | r | 5.049 | 3.393 |
| δC′ | 8.266 | 6.575 | |
| δCα | 6.269 | 6.197 | |
| δCβ | 7.321 | 6.299 | |
| δHN | 1.458 | 1.310 | |
| δHα | 0.336 | 0.331 | |
Target energy functions are defined by Marsh and Forman-Kay (53). ACCESS, accessible surface area; R2, transverse relaxation rate, δC′, carbonyl chemical shift; δCα, carbon chemical shift; δCβ, β-carbon chemical shift; δHN, amide proton chemical shift; δHα, α-proton chemical shift; N, value of the restraint; σN, average standard deviation of the restraint; r, correlation coefficient for fitting R2. Energy term units are arbitrary.