A peptide triggers allostery in Tet repressor by binding to a unique site

Regulatory proteins often communicate with each other to manage various cellular processes. Such interactions mostly rely on the recognition of small peptide motifs. The activity of other regulatory proteins depends on small molecular weight effectors and allostery. We demonstrate the in vivo regulation of the tetracycline-dependent Tet repressor by an oligopeptide fused to the N or C terminus of thioredoxin A. The binding site of the peptide overlaps but is not identical with the tetracycline binding site. Several TetR mutants that are non-inducible by tetracycline also respond to the peptide. This demonstrates for the first time the conversion of a small molecular weight effector-dependent regulator to a protein-protein contact-dependent potential member of designed signaling chains.