The BacterioMatch™ two-hybrid system provides a fast, simple, and efficient method for in vivo detection of protein-protein interactions in
Escherichia coli (
1 ,
2 ). This system is based on transcriptional activation of a reporter gene. In this system, a protein of interest (the bait) is fused to the full-length bacteriophage λ repressor protein (λcl), which consists of an amino-terminal DNA-binding domain and a carboxyl-terminal dimerization domain. Target proteins are fused to the N-terminal domain of the α-subunit of RNA polymerase (RNAP-α). When expressed in the bacterial reporter strain, the bait is tethered to the λ operator sequence upstream of the reporter promoter through the DNA-binding domain of λcl. When the bait and target proteins interact, they recruit and stabilize the binding of RNA polymerase at the promoter and activate transcription of the β-lactamase (Amp
r ) and β-galactosidase (
lacZ ) reporter genes (
see Fig. 1 ). Expression from the reporter promoter is correlated with the interaction affinity of the bait and target. A stronger interaction between bait and target proteins results in higher levels of gene expression of the reporter genes, as indicated by higher levels of carbenicillin-resistance (
3 ) and β-galactosidase activity in the reporter strain. The BacterioMatch system detects an interaction between proteins with an equilibrium dissociation constant in the high nanomolar range.
Fig. 1. Interaction of the bait and target proteins activates transcription of the Ampr and lacZ reporter genes.