Genetic studies of F plasmid maintenance genes involved in copy number control, incompatability, and partitioning

Abstract

We have identified a 2.1-kilobase (kb) region (44.1 to 46.19 kb) in F that is necessary and sufficient to form low copy number minireplicons. Within this region we have mapped (i) mutations ( cop) inducing 4.4- to 28-fold increases in copy number and (ii) two separate regions that determine incompatability ( incB and incC). The 2.1-kilobase region has also been shown by others to contain (i) an origin of replication, ori (ii) a locus ( aos) necessary for sensitivity to the plasmid replication inhibitor, acridine orange, and (iii) nine, 19- to 22-base-pair direct repeat sequences organized in two clusters. In the present work we more accurately locate the aos locus and show that it, as well as ori, incB, incC, and some cop mutations, map within or overlap the direct repeat regions. Analysis of other cop mutations indicates that they reduce or destroy the incompatability reaction associated with the 2.1-kb region; however, these cop mutations do not map within the incB or incC determinants. A 2-fold copy number elevation and unstable plasmid maintenance also results from deletion of the 46.19- to 49.2-kb region. Results described here and elsewhere suggest that the instability of the deletion mutant reflects the loss of partitioning gene, a gene that is probably identical to an inc locus, incD, that had been identified in this region in prior work. Whether or not the incD locus has anything to do with the slight copy number elevation is unknown.