Ligand promiscuity in the tryptophan repressor – from structural understanding towards rational design

Abstract

AbstractReceptors that promiscuously bind a range of ligands provide insights into how nature mediates affinity and biological functioning. Moreover, such receptors provide vantage points for the rational design of specific binding for biotechnological applications. Here we describe the molecular details of the ligand binding promiscuity of the well-known tryptophan repressor TrpR. We elucidated high-resolution structures of TrpR bound to the co-repressors 5-methyl-tryptophan and 5-methyl-tryptamine as well as the pseudo-repressors indole-3-propionic and indole-3-acetic acid. Furthermore, using isothermal titration calorimetry we procure the corresponding thermodynamic parameters. Together this data provides molecular explanations for the strongly varied affinities and biological effects of the ligands providing insights into how nature shapes specificity and affinity. Beyond this we use these insights to exemplarily showcase knowledge-based design of TrpR by swapping its specificity from its native ligand tryptophan to indole-3-acetic acid. Finally, we elucidate the structures of the variant bound to indole-3-acetic and indole-3-propionic acid to retrace our design rationale.