A specific protease encoded by the conjugative DNA transfer systems of IncP and Ti plasmids is essential for pilus synthesis

Abstract

TraF, an essential component of the conjugative transfer apparatus of the broad-host-range plasmid RP4 (IncP), which is located at the periplasmic side of the cytoplasmic membrane, encodes a specific protease. The traF gene products of IncP and Ti plasmids show extensive similarities to prokaryotic and eukaryotic signal peptidases. Mutational analysis of RP4 TraF revealed that the mechanism of the proteolytic cleavage reaction resembles that of signal and LexA-like peptidases. Among the RP4 transfer functions, the product of the Tra2 gene, trbC, was identified as a target for the TraF protease activity. TrbC is homologous to VirB2 of Ti plasmids and thought to encode the RP4 prepilin. The maturation of TrbC involves three processing reactions: (i) the removal of the N-terminal signal peptide by Escherichia coli signal peptidase I (Lep), (ii) a proteolytic cleavage at the C terminus by an as yet unidentified host cell enzyme, and (iii) C-terminal processing by TraF. The third reaction of the maturation process is critical for conjugative transfer, pilus synthesis, and the propagation of the donor-specific bacteriophage PRD1. Thus, cleavage of TrbC by TraF appears to be one of the initial steps in a cascade of processes involved in export of the RP4 pilus subunit and pilus assembly mediated by the RP4 mating pair formation function.