Expression of the repA1 gene of IncFII plasmid NR1 is translationally coupled to expression of an overlapping leader peptide.

Examination of a group of mutants of plasmid NR1 that had lost the expression of IncFII plasmid incompatibility (Inc-) revealed a group that had also lost replication proficiency (Rep-). These mutants were obtained from plasmids in which the NR1 replication control region was present in a cointegrate with plasmid pBR322. Whereas the wild-type parental cointegrate plasmid was capable of replicating in a polA host owing to the PolA independence of NR1 replication, the mutants were not able to transform a polA host. Losses of both expression of IncFII plasmid incompatibility and replication proficiency were found to result from the same single base-pair substitution in four independently isolated Inc- Rep- mutants. The mutation inactivates promoter PE for the transcription of RNA-E, a trans-acting repressor of translation of the essential RepA1 replication initiation protein of NR1. Although the loss of RNA-E synthesis had been expected to increase the expression of repA1, the efficiency of translation of repA1 mRNA from these mutants was at least 100-fold lower than that from the wild type, as revealed by repA1-lacZ translational fusions. The PE mutation introduced a stop codon into a 24-amino-acid reading frame that precedes the repA1 gene and terminates just 2 bp downstream from the repA1 start codon. This putative leader peptide was also expressed in a lacZ translational fusion, and its expression was reduced by a factor of 10(4) by the PE mutation. The expression of the leader peptide and the expression of repA1 were regulated by RNA-E. These results suggest that the expression of repA1 is coupled to the translation of the leader peptide and that the repression of repA1 translation by RNA-E may occur via inhibition of the translation of the leader peptide.