In many cases, it is much more efficient to screen as mixtures because it pares down the dataset to a manageable range. One uses screening mixtures by soaking the crystal in a cocktail with multiple ligands. The secret to designing the proper mixture is to ensure that each ligand in the cocktail is differentiable from the other ligands, even at low resolutions. Express-Zen-Core288™ has a very high shape diversity, making it possible to group into shape diverse mixtures that can be distinguished at 2.7Å-3.0Å.
How Does Zenobia Make it's Mixtures?
Zenobia's mixtures for crystallographic screening contain up to 6 compounds that are highly shape diverse permitting identification of the hit from the shape of the electron density map (Nienaber et al., 2000). For those that are not limited by crystals or beamtime, mixtures of 3 or single compound screening kits are also available for crystallography. Sample mixtures of 6 are depicted below.
Crystallographic screening is a method used to detect ligands that bind to a target protein. What makes this metod special is that it also provides structural data about the binding location and interactions between the ligand and protein. The crystal itself has the protein molecules lined up in an ordered array with large solvent channels so that ligands can soak in and bind to sites on the crystallized protein. This method is exceptionally successful in detecting weakly binding ligands because the protein is highly concentrated in the crystal. Once the crystal has been soaked in the cocktail of ligands, diffraction data are collected and used to calculate an electron density map to determine if any of the ligands bound to the protein. If they do bind, one can tell by a visible positive electron density peak in a difference density map between the putative ligand protein complex and apoprotein. The ligand cocktails should be designed so that each lig...