NMR Screening in the Fragment-based Drug Discovery

Abstract

Nuclear magnetic resonance (NMR) is a versatile technique for the pharmaceutical industry. From organic chemistry to MRI, there are a number of applications of NMR. Among them, biomolecular NMR has been used for structure determination of biomolecules and analyzing the interaction between a target protein and its inhibitors. In the context of fragment-based drug discovery (FBDD), NMR has been known as a fragment screening technique, because NMR is good at detecting a weak binding compound in an accurate manner. Generally, the NMR technique for fragment screening is classified into two families: the ligand-based technique and the protein-based technique. The latter technique requires stable isotope labeled protein and also can be applied to a relatively small MW protein target. In the ligand-based technique such as saturation transfer difference (STD) and WaterLOGSY, only the NMR signals of the ligands are observed. The disadvantage of STD and WaterLOGSY is that the non-specific binding is also observed and a competition experiment is required in order to select the specific binding compound. Due to the difference in the consumption of the protein sample, the ligand-based technique has generally been used recently as a primary screening.