research papers
The major macromolecular crystallographic refinement packages restrain models to ideal geometry targets defined as single values that are independent of molecular conformation. However, ultrahigh-resolution X-ray models of proteins are not consistent with this concept of ideality and have been used to develop a library of ideal main-chain bond lengths and angles that are parameterized by the φ/ψ angle of the residue [Berkholz et al. (2009), Structure, 17, 1316–1325]. Here, it is first shown that the new conformation-dependent library does not suffer from poor agreement with ultrahigh-resolution structures, whereas current libraries have this problem. Using the TNT refinement package, it is then shown that protein structure refinement using this conformation-dependent library results in models that have much better agreement with library values of bond angles with little change in the R values. These tests support the value of revising refinement software to account for this new paradigm.
Supporting information
Portable Document Format (PDF) file https://doi.org/10.1107/S0907444910019207/dz5202sup1.pdf |
PDB references: ferredoxin:NADP+ reductase at 100 K, 3lo8; at 295 K refined against all data, 1jb9; at 295 K refined withholding test set, 3lvb