Autoregulation of the synthesis of the MobM relaxase encoded by the promiscuous Plasmid pMV158

Abstract

The streptococcal promiscuous plasmid pMV158 (5,540 bp) replicates by the rolling-circle mechanism and can be mobilized among a wide number of Gram-positive and -negative bacteria. The plasmid region involved in its conjugative transfer includes the mobM gene, which encodes the MobM relaxase, and the cis-acting origin of transfer (oriT). MobM initiates transfer by cleavage of supercoiled pMV158 DNA at a specific dinucleotide within oriT. In the present work, we have performed a detailed transcriptional analysis to assess the role of MobM in the control of its own gene expression. By in vivo and in vitro approaches, we demonstrated that mobM transcription in Escherichia coli was mostly initiated from a promoter (Pmob2) different from the one (Pmob1) used in Lactococcus lactis. Whereas promoter Pmob1 was embedded within the oriT sequence, promoter Pmob2 was placed apart from but adjacent to oriT. Further, MobM was able to repress the expression of its own gene from both promoters. Given the promiscuity of pMV158, the organization of the mobM promoter region suggests a strategy of the plasmid to cope with different transcription machineries of the hosts it colonizes. © 2012, American Society for Microbiology.