Abstract
Achiral bivalent ligands capable of simultaneous occupation of both hormone binding sites of transthyretin generate a substantial and complex induced near ultraviolet circular dichroism spectrum during protein binding, revealing the dynamics of this process. Reduced temperature and pH slow the interaction and reveal two phases consistent with formation of an encounter complex and progression of the interaction through the core of the transthyretin tetramer. The x-ray structure of the protein-ligand complex confirms the endpoint of the binding trajectory and shows evidence of plasticity in the structure, with substantial disturbances of some mainchain and sidechains within and adjacent to the binding channel. This study highlights the effective complementarity of CD and x-ray investigations.