Streptavidin-binding and -dimerizing ligands discovered by phage display, topochemistry, and structure-based design
摘要
Structural and mechanistic determinants of affinity of streptavidin-binding peptide ligands discovered by phage display are reviewed along with the use of streptavidin as a paradigm for structure-based design. A novel way of producing protein-dimerizing ligands in the streptavidin model system is discussed, in which crystal packing topochemically mediates or even catalyzes dimerization of adjacent bound ligands whose reactive ligating groups are presented toward one another in productive orientations in the crystal lattice. Finally, through crystallography on a set of streptavidin complexes with small molecule and peptide ligands at multiple pHs in two space groups, the mechanism by which ligands enhance intersubunit stabilization of the streptavidin tetramer is probed.