Synthesis and X-ray crystal structure determination of two pseudopolymorphic forms of μ-[1,2-bis(diphenylphosphino)ethane] bis [chlorogold(I)]: a digold(I) DNA binder

An improved synthetic route to the linearly coordinated digold(I) complex, μ-[1,2-bis(diphenylphosphino)ethane]bis[chlorogold(I)], is reported. This complex crystallizes in two pseudopolymorphic forms from a chloroform/methylene chloride solution; the crystal and molecular structures of both are discussed and compared. In both crystal forms the potentially chelating diphenylphosphinoethane (dppe) ligand instead coordinates to two separate gold atoms. The coordination environment of each gold atom is linear in both pseudopolymorphs and the structures display normal goldchloride and goldphosphorus bond distances. On the molecular level, the pseudopolymorphs differ fundamentally by a twist about one of the gold phosphorous bonds with the phosphorous atoms of the dppe ligand adopting a transoid orientation relative to one another in both polymorphs. These conformations thus place the intramolecular gold atoms 6 Å apart and preclude intramolecular AuAu bonding interactions. As has been observed for related gold(I) complexes there are short intermolecular AuAu contacts of the order of 3.2 Å present in both structures. The conformational flexibility of the gold complex relative to its observed biological activity as a DNA binder is discussed.