| Abstract: | Transfer of the Escherichia coli fertility plasmid, F, is dependent on expression of F pili. Synthesis of F-pilin subunits is known to involve three F plasmid transfer (tra) region products: traA encodes the 13-kDa precursor protein, TraQ permits this to be processed to the 7-kDa pilin polypeptide, and TraX catalyzes acetylation of the pilin amino terminus. Using cloned tra sequences, we performed a series of pulse-chase experiments to investigate the effect of TraQ and TraX on the fate of the traA product. In TraQ- cells, the traA gene product was found to be very unstable. While traA polypeptides of various sizes were detected early in the chase period, almost all were degraded within 5 min. Rapid traA product degradation was also observed in TraX+ cells, although an increased percentage of these products persisted during the chase. In TraQ+ cells, most of the traA product was processed to the 7-kDa pilin polypeptide within the 1-min pulse period; this product 7(Q)] was not degraded but was increasingly converted to an 8-kDa form 8(Q)] as the chase continued, suggesting that host enzymes can modify the pilin polypeptide. Similar results were observed in TraQ+ TraX+ cells, but the primary 7-kDa product appeared to be N-acetylated pilin (Ac-7). An 8-kDa product (Ac-8) was also detected, but this band did not increase in intensity during the chase. We suggest a pathway in which TraQ prevents the traA product from folding to a readily degradable conformation and assists its entry into the membrane, Leader peptidase I cleaves the traA product signal sequence, and a subset of the pilin polypeptides becomes modified by host enzymes; TraX then acetylates the N terminal of both the modified and unmodified pilin polypeptides. |
