In vivodetection of protein-protein interactions with single molecule resolution

Abstract

SUMMARYProtein-protein interactions are central in all biological processes. Methods capable of detecting interactions within living, intact cells have been particularly useful to identify and characterize protein interaction networks. We describe here an exquisitely sensitive regulatory circuit that can detect in bacteria, protein-protein interaction with single molecule sensitivity. This approach involves the interaction-mediated reconstitution of a cyclic AMP signaling cascade inEscherichia colitaking advantage of the high catalytic activity of the adenylate cyclase (AC) fromBordetella pertussisupon activation by its natural activator, calmodulin (CaM). We show that a single complex of interacting hybrid proteins per cell is enough to confer a selectable trait to the host. Thisexquisitelysensitiveadenylatecyclasehybrid (ESACH) system allows for directin vivoselection of ligands exhibiting high affinity for given targets or for studying interactions involving toxic proteins. The extreme sensitivity of the AC/CaM/cAMP signaling cascade may thus be harnessed to interrogate biological processes with single molecule resolution in live bacteria and could be exploited to design novel synthetic regulatory networks operating at, or even below, the theoretical threshold limit of one molecule per cell.