Molecular replacement with a large number of molecules in the asymmetric unit.

Abstract

The exponential increase in protein structures deposited in the Protein Data Bank (PDB) has resulted in the elucidation of most, if not all, protein folds, thus making molecular replacement (MR) the most frequently used method for structure determination. A survey of the PDB shows that most of the structures determined by molecular replacement contain less than ten molecules in the asymmetric unit and that it is predominantly virus and ribosome structures that contain more than 20 molecules in the asymmetric unit. While the success of the MR method depends on several factors, such as the homology and the size of an input model, it is also a well known fact that this method can become significantly difficult in cases with a large number of molecules in the asymmetric unit, higher crystallographic symmetry and tight packing. In this paper, five representative structures containing 16-18 homomeric molecules in the asymmetric unit and the strategies that have been used to solve these structures are described. The difficulties faced and the lessons learned from these structure-determination efforts will be useful for selected and similar future situations with a large number of molecules in the asymmetric unit.