Improved cross validation of a static ubiquitin structure derived from high precision residual dipolar couplings measured in a drug-based liquid crystalline phase.

The antibiotic squalamine forms a lyotropic liquid crystal at very low concentrations in water (0.3-3.5% w/v), which remains stable over a wide range of temperature (1-40 °C) and pH (4-8). Squalamine is positively charged, and comparison of the alignment of ubiquitin relative to 36 previously reported alignment conditions shows that it differs substantially from most of these, but is closest to liquid crystalline cetyl pyridinium bromide. High precision residual dipolar couplings (RDCs) measured for the backbone 1H-15N, 15N-13C′, 1Hα-13Cα, and 13C′-13Cα one-bond interactions in the squalamine medium fit well to the static structural model previously derived from NMR data. Inclusion into the structure refinement procedure of these RDCs, together with 1H-15N and 1Hα-13Cα RDCs newly measured in Pf1, results in improved agreement between alignment-induced changes in 13C′ chemical shift, 3JHNHα values, and 13Cα-13Cβ RDCs and corresponding values predicted by the structure, thereby validating the high quality o...