Acceleration of protein backbone NMR assignment by combinatorial labeling: Application to a small molecule binding study

Selective labeling with stable isotopes has long been recognized as a valuable tool in protein NMR to alleviate signal overlap and sensitivity limitations. In this study, combinatorial ¹⁵N‐, ¹³C^α‐, and ¹³C'‐selective labeling has been used during the backbone assignment of human cyclophilin D to explore binding of an inhibitor molecule. Using a cell‐free expression system, a scheme that involves ¹⁵N, 1‐¹³C, 2‐¹³C, fully ¹⁵N/¹³C, and unlabeled amino acids was optimized to gain a maximum of assignment information from three samples. This scheme was combined with time‐shared triple‐resonance NMR experiments, which allows a fast and efficient backbone assignment by giving the unambiguous assignment of unique amino acid pairs in the protein, the identity of ambiguous pairs and information about all 19 non‐proline amino acid types. It is therefore well suited for binding studies where de novo assignments of amide ¹H and ¹⁵N resonances need to be obtained, even in cases where sensitivity is the limiting factor.