CHARACTERIZATION OF HIS-X3-HIS SITES IN ALPHA-HELICES OF SYNTHETIC METAL-BINDING BOVINE SOMATOTROPIN

Variants of bovine somatotropin have been engineered to contain synthetic metal-binding sites consisting of two solvent-exposed histidines separated by a single turn of an alpha-helix (His-X3-His variants). The affinities of these proteins for Cu(II) were characterized by measuring their partition coefficients in an aqueous two-phase polymer system. The partition coefficients were used to generate binding constants for formation of a complex between the engineered metal-binding site and Cu(II) chelated to an iminodiacetic acid derivative of polyethylene glycol. For three His-X3-His variants described here, these constants range from 2 x 10(4) to 1.6 x 10(6) M-1. The metal affinity of a His-X3-His site depends on the rigidity of the helix into which the site is engineered. The affinities of the His-X3-His sites for Cu(II) are large enough to dramatically increase not only the partitioning of these proteins in aqueous two-phase systems, but also their retention times on a metal-affinity chromatography column. Both these features can greatly facilitate the purification of engineered proteins. Criteria for choosing positions for incorporating metal-binding sites are discussed.