Abstract
BackgroundrepABC operons are present on large, low copy-number plasmids and on some secondary chromosomes in at least 19 α-proteobacterial genera, and are responsible for the replication and segregation properties of these replicons. These operons consist, with some variations, of three genes: repA, repB, and repC. RepA and RepB are involved in plasmid partitioning and in the negative regulation of their own transcription, and RepC is the limiting factor for replication. An antisense RNA encoded between the repB-repC genes modulates repC expression.ResultsTo identify the minimal region of the Rhizobium etli p42d plasmid that is capable of autonomous replication, we amplified different regions of the repABC operon using PCR and cloned the regions into a suicide vector. The resulting vectors were then introduced into R. etli strains that did or did not contain p42d. The minimal replicon consisted of a repC open reading frame under the control of a constitutive promoter with a Shine-Dalgarno sequence that we designed. A sequence analysis of repC revealed the presence of a large A+T-rich region but no iterons or DnaA boxes. Silent mutations that modified the A+T content of this region eliminated the replication capability of the plasmid. The minimal replicon could not be introduced into R. etli strain containing p42d, but similar constructs that carried repC from Sinorhizobium meliloti pSymA or the linear chromosome of Agrobacterium tumefaciens replicated in the presence or absence of p42d, indicating that RepC is an incompatibility factor. A hybrid gene construct expressing a RepC protein with the first 362 amino acid residues from p42d RepC and the last 39 amino acid residues of RepC from SymA was able to replicate in the presence of p42d.ConclusionsRepC is the only element encoded in the repABC operon of the R. etli p42d plasmid that is necessary and sufficient for plasmid replication and is probably the initiator protein. The oriV of this plasmid resides within the repC gene and is located close to or inside of a large A+T region. RepC can act as an incompatibility factor, and the last 39 amino acid residues of the carboxy-terminal region of this protein are involved in promoting this phenotype.
Highlights
RepABC operons are present on large, low copy-number plasmids and on some secondary chromosomes in at least 19 a-proteobacterial genera, and are responsible for the replication and segregation properties of these replicons
We demonstrate the following: A) RepC is the only element encoded in the repABC operon of the Rhizobium etli p42d plasmid that is necessary and sufficient for plasmid replication
The oriV of p42d is located within the repC coding sequence The basic replicon of Rhizobium etli p42d, defined as the smallest DNA region that contains all of the elements required to replicate with the same stability and plasmid copy-number as the parental plasmid, consists of the complete repABC operon plus 500 bp downstream of the repC stop codon and 86 bp upstream of the repA initiation codon [8] (Figure 1). pDOP-E’, a construct which carries the complete repC gene, the intergenic sequence between repB and repC, and the 500 bp downstream of the repC stop codon under a constitutive promoter (Plac promoter), can replicate but does so with a slightly higher plasmid copy-number than the parental plasmid
Summary
RepABC operons are present on large, low copy-number plasmids and on some secondary chromosomes in at least 19 a-proteobacterial genera, and are responsible for the replication and segregation properties of these replicons. These operons consist, with some variations, of three genes: repA, repB, and repC. These proteins recognize the origin of replication, destabilize double-stranded DNA, and recruit the replisome, which is the machinery directly involved in DNA replication [1] Both the activity and concentration of the initiator proteins are highly regulated because the genetic material needs to be replicated only once per generation. The DNA initiation rate can be controlled by blocking or hiding the origins of replication [3,4]
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