Regions of homology in small colicinogenic plasmids

Restriction maps have been constructed for the colicinogenic plasmids (ColA, ColD, and ColK. Their regions of homology with the ColE1 plasmid and its deletion derivative pAO3 carrying the region responsible for autonomous replication of ColE1 plasmid were determined by means of blotting hybridization and heteroduplex analysis. The plasmids ColA, ColD, and ColK were shown to contain DNA fragments homologous to the region of ColE1 involved in the regulation of replication.     

Characteristics of replication of small colicinogenic plasmids

Specificity of small multicopy colicinogenic plasmids ColA, ColD, ColE2 and ColK replication has been compared with the one of ColE1 plasmid. Copy number for these plasmids per host cell has been estimated under the normal conditions of cellular growth and under the conditions of chloramphenicol-inhibited growth. DNA polymerase I and dnaB protein, an obligatory component for elongation step in replication, have been shown to be necessary for the plasmids replication. Initiation of plasmids replication has been demonstrated to be independent of dnaA and dnaC proteins. Replication of plasmid ColE2, being similar in its main features to replication of other plasmids from this group, has an important distinction. It requires de novo protein synthesis implying that ColE2 replicon may be different from ColA, ColD, ColK, ColE1 replicons. Thus study of the inducible A, D, K, El colicin synthesis coded by the corresponding plasmids has revealed the similarity regulation of genes, determining the synthesis of each of the mentioned colicins.     

Structuro-functional organization of segments of Co1A plasmid DNA, determining its stable inheritance

Two par regions were localized within the structure of a small colicinogenic plasmid ColA. One of them functions at the expense of plasmid multimere resolution. Analysis of the nucleotide sequence of the region revealed the existence of essential homology with the par locus of plasmid ColE1. As compared to E. coli C600, the function of multimere forms' resolution of plasmid DNA in E. coli C is reduced or absent due to par regions of the ColE1 type. Par regions of various degrees of homology with the par locus of ColE1 were localized by Southern hybridization within the structure of colicinogenic plasmids ColN and ColD. The stabilization of the colicinogenic plasmids is believed to be also determined by the functioning of genes connected with the synthesis and action of colicin.     

Structural and functional organization of ColE2 and ColE3 replicons

Summary The complete nucleotide sequences of the 1.5 kb regions of ColE2 and ColE3 plasmids containing the segments sufficient for autonomous replication have been determined. They are quite homologous (greater than 90%), indicating that these two plasmids share common mechanisms of initiation of replication and its regulation. An open reading frame with a coding capacity for a protein of about 300 amino acids is present in both ColE2 and ColE3 and it actually specifies the Rep (for replication) protein, which is the plasmid specific trans-acting factor required for autonomous replication. The amino acid sequences of the Rep proteins of ColE2 and ColE3 are quite homologous (greater than 90%). The cis-acting sites (origins) where replication initiates in the presence of the trans-acting factors consist of 32 bp for ColE2 and 33 bp for ColE3. They are the smallest of all the prokaryotic replication origins so far reported. They are nonhomologous only at two positions, one of which, a deletion of a single nucleotide in ColE2 (or an insertion in ColE3), determines the plasmid specificity in interaction of the origins with the Rep proteins. Both plasmids carry a region with an identical nucleotide sequence and the one in ColE2, the IncA region, has been shown to express incompatibility against both ColE2 and ColE3. These results indicate that these plasmids share a common IncA determinant. A possibility that a small antisense RNA is involved in copy number control and incompatibility (IncA function) was suggested.     

The complete nucleotide sequence of the colicinogenic plasmid ColA. High extent of homology with ColE1

Summary The complete nucleotide sequence of the colicinogenic plasmid ColA has been determined. The plasmid DNA consists of 6720 bp (molecular weight 4.48×10⁶). Fifteen putative biological functions have been identified using the functional map previously determined. These include 11 genes and 3 DNA sites. Nine genes encode proteins of which 3 have been fully characterized. The replication region of ColA coding for RNAI and RNAII is highly homologous to that of ColE1 andClo DF13. The same holds true for the site-specific recombination region containing palindromic symmetry and involved in stable maintenance of the plasmids. A high percentage of homology has been detected for putative mobility proteins encoded by ColA and ColE1. The exclusion proteins are also highly homologous.     

Comparative analysis of the replicon regions of eleven ColE2-related plasmids.

The incA gene product of ColE2-P9 and ColE3-CA38 plasmids is an antisense RNA that regulates the production of the plasmid-coded Rep protein essential for replication. The Rep protein specifically binds to the origin and synthesizes a unique primer RNA at the origin. The IncB incompatibility is due to competition for the Rep protein among the origins of the same binding specificity. We localized the regions sufficient for autonomous replication of 15 ColE plasmids related to ColE2-P9 and ColE3-CA38 (ColE2-related plasmids), analyzed their incompatibility properties, and determined the nucleotide sequences of the replicon regions of 9 representative plasmids. The results suggest that all of these plasmids share common mechanisms for initiation of DNA replication and its control. Five IncA specificity types, 4 IncB specificity types, and 9 of the 20 possible combinations of the IncA and IncB types were found. The specificity of interaction of the Rep proteins and the origins might be determined by insertion or deletion of single nucleotides and substitution of several nucleotides at specific sites in the origins and by apparently corresponding insertion or deletion and substitution of amino acid sequences at specific regions in the C-terminal portions of the Rep proteins. For plasmids of four IncA specificity types, the nine-nucleotide sequences at the loop regions of the stem-loop structures of antisense RNAs are identical, suggesting an evolutionary significance of the sequence. The mosaic structures of the replicon regions with homologous and nonhomologous segments suggest that some of them were generated by exchanging functional parts through homologous recombination.     

Localization of genes responsible for replication and immunity to colicin A on plasmid ColA-CA31

The region containing the origin and regulatory sites for replication as well as the immunity gene (iaa) have been localized on the plasmid ColA-CA31. The region involved in replication functions of ColA can be hybridized with that of ColE1. It is located between 1 and 1 kb on the plasmid map previously published (Morlon et al. 1982a). A 0.50 Kb HincII fragment of ColA can be weakly hybridized to the ColE1 immunity region. This fragment contains iaa since directed in vitro mutagenesis at an internal restriction site can abolish the immunity to colicin A; however, it does not contain the entire iaa. Knowing the localization of regions involved in autonomous DNA replication and immunity, a mini-ColA plasmid was constructed that contains these two regions. The mini-ColA of 2.8 Kb can be amplified in the presence of chloramphenicol and confers the immunity to transformants. It thus constitutes a useful cloning vector. Expression of ColA and of the various constructed plasmids in the maxicell system suggests that the immunity protein has a molecular weight of about 18-20 Kd.     

Identification of functional regions of the colicinogenic plasmid ColA

Summary ColA is a colicinogenic plasmid of 6.72 kb. It is compatible with ColE1 but not with ColK. Transposon insertion mutagenesis as well as complementation studies have been carried out to investigate the location of the various functional regions of this plasmid. Four independent ColA::Tn1 and one ColA::Tn3 plasmids were isolated and the locations of insertions were determined. From these plasmids, six different deletion mutants were constructed. In addition, various restriction fragments of ColA have been cloned into pUC8 to carry out complementation studies. We have thus confirmed the location of the DNA regions involved in colicin production, colicin release and immunity function. The DNA region involved in conjugal mobility promoted by R64 drd11 has been identified and we have demonstrated that the ColE1 mobility proteins can act in trans on the bom (basis of mobility) site of ColA. The location of this site, as well as the region involved in stable maintenance of ColA, have also been determined. These results are discussed with regard to the homology in nucleotide sequence between ColA and ColE1.     

Identification of multicopy suppressors of the pcnB plasmid copy number defect in Escherichia coli

Plasmids containing a ColE1 origin of replication are widely used for cloning purposes in Escherichia coli. Among the host factors that affect the copy number of ColE1 plasmids is the E. coli protein poly(A) polymerase I (PAP I), which regulates the intracellular level of RNA I, a ColE1-encoded negative regulator of plasmid replication. In strains that lack PAP I, RNA I levels are elevated, resulting in reduced levels of ColE1 plasmids in the cell. PAP I is encoded by the gene pcnB. We devised a genetic approach, based on the identification of multicopy suppressor clones, to identify trans-acting factors that can help offset the ColE1 plasmid copy number defect in a pcnB (-) genetic background. Using this strategy, we identified suppressors that mapped to two regions of the E. coli chromosome. The suppressor activity of one of the chromosomal regions was localized to the rssB gene, a response regulator gene known to be involved in the turnover of the stationary-phase sigma factor, RpoS. The second suppressor maps to min 55.4 of the E. coli chromosome, and the factor responsible for the suppressor activity appears to be a novel RNA or protein.     

The importance of homologous recombination in the generation of large deletions in hybrid plasmids in Amycolatopsis mediterranei

The whole nucleotide sequence of pT3.2I, the smallest plasmid of the acidophilic bacterium Thiobacillus T3.2, has been determined. pT3.2I is 15,390 bp long with a 53.7% GC content. Different regions can be defined in it: one 2569-bp putative insertion sequence similar to other insertion sequences of some Agrobacterium Ti plasmids; and a longer sequence, which occurs in two almost identical copies, differing only in a 1-bp deletion (6406 and 6405 bp). Several open reading frames and some smaller sequences were found in this duplicated region: ORFA and ORFG, encoding a putative polyol dehydrogenase and a putative RepA replication protein, respectively, an 83-bp sequence which could code for an antisense RNA, and a 36-bp region highly homologous to ori sequences of ColE2- and ColE3-related plasmids. Another putative gene, ORFH, is only present in the longer copy of this region (it is deleted in the short copy) and might encode a 90-amino-acid polypeptide which could act as a second replication protein, RepB. Based on sequence comparisons, pT3. 2I can be related to plasmids in the pColE2-CA42 incB incompatibility group.     

Discriminatory function of ribonuclease H in the selective initiation of plasmid DNA replication.

The initiation stage of ColE1-type plasmid replication was reconstituted with purified protein fractions from Escherichia coli. The reconstituted system included DNA polymerase I, DNA ligase, RNA polymerase, DNA gyrase, and a discriminating activity copurifying with RNAase H (but free of RNAase III). Initiation of DNA synthesis in the absence of RNAase H did not occur at the normal replication origin and was non-selective with respect to the plasmid template. In the presence of RNAase H the system was selective for ColE1-type plasmids and could not accept the DNA of non-amplifiable plasmids. Electron microscopic analysis of the reaction product formed under discriminatory conditions indicated that origin usage and directionally of ColE1, RSF1030, and CloDF13 replication were consistent with the normal replication pattern of these plasmids. It is proposed that the initiation of ColE1-type replication depends on the formation of an extensive secondary structure in the origin primer RNA that prevents its degradation by RNAase H.     

Characterization of pECL18 and pKPN2: a proposed pathway for the evolution of two plasmids that carry identical genes for a Type II restriction-modification system

The primary structures of the plasmids pECL18 (5571 bp) and pKPN2 (4196 bp) from Escherichia coli and Klebsiella pneumoniae, respectively, which carry genes for a Type II restriction-modification system (RMS2) with the specificity 5'-CCNGG-3', were determined in order to elucidate the structural relationship between them. The data suggest a possible role for recombination events at bom (basis of mobility) regions and the sites of resolution of multimer plasmid forms (so-called cer sequences) in the structural evolution of multicopy plasmids. Analysis of the sequences of pECL18 and pKPN2 showed that the genes for RM* Ecl18kI and RM* Kpn2kI, and the sequences of the rep (replication) regions in the two plasmids, are almost identical. In both plasmids, these regions are localized between the bom regions and the cer sites. The rest of the pECL18 sequence is almost identical to that of the mob (mobilization) region of ColE1, and the corresponding segment of pKPN2 is almost identical to part of pHS-2 from Shigella flexneri. The difference in primary structures results in different mobilization properties of pECL18 and pKPN2. The complete sequences of pECL18, pKPN2 and the pairwise comparison of the sequences of pECL18, pKPN2, ColE1 and pHS-2 suggest that plasmids may exchange DNA units via site-specific recombination events at bom and cer sites. In the course of BLASTN database searches using the cer sites of pECL18 and pKPN2 as queries, we found twenty cer sites of natural plasmids. Alignment of these sequences reveals that they fall into two classes. The plasmids in each group possess related segments between their cer and bom sites.     

Lateral transfer of rfb genes: a mobilizable ColE1-type plasmid carries the rfbO:54 (O:54 antigen biosynthesis) gene cluster from Salmonella enterica serovar Borreze.

Plasmid pWQ799 is a 6.9-kb plasmid isolated from Salmonella enterica serovar Borreze. Our previous studies have shown that the plasmid contains a functional biosynthetic gene cluster for the expression of the O:54 lipopolysaccharide O-antigen of this serovar. The minimal replicon functions of pWQ799 have been defined, and a comparison with nucleotide and protein databases revealed this replicon to be virtually identical to ColE1. This is the first report of involvement of ColE1-related plasmids in O-antigen expression. The replicon of pWQ799 is predicted to encode two RNA molecules, typical of other ColE1-type plasmids. RNAII, the putative replication primer from pWQ799, shares regions of homology with RNAII from ColE1. RNA1 is an antisense regulator of DNA replication in ColE1-related plasmids. The coding region for RNAI from pWQ799 shares no homology with any other known RNAI sequence but is predicted to adopt a secondary structure characteristic of RNAI molecules. pWQ799 may therefore represent a new incompatibility group within this family. pWQ799 also possesses cer, rom, and mob determinants, and these differ minimally from those of ColE1. The plasmid is mobilizable in the presence of either the broad-host-range helper plasmid pRK2013 or the IncI1 plasmid R64drd86. Mobilization and transfer of pWQ799 to other organisms provides the first defined mechanism for lateral transfer of O-antigen biosynthesis genes in S. enterica and explains both the distribution of related plasmids and coexpression of the O:54 factor with other O-factors in different Salmonella serovars. The base composition of the pWQ799 replicon sequences gives an average percent G+C value typical of Salmonella spp. In contrast, the percent G+C value is dramatically lower with rfb0:54, consistent with the possibility that the cluster was acquired from an organism with much lower G+C composition.     

Suppression of ColE1 high-copy-number mutants by mutations in the polA gene of Escherichia coli.

We isolated three Escherichia coli suppressor strains that reduce the copy number of a mutant ColE1 high-copy-number plasmid. These mutations lower the copy number of the mutant plasmid in vivo up to 15-fold; the wild-type plasmid copy number is reduced by two- to threefold. The suppressor strains do not affect the copy numbers of non-ColE1-type plasmids tested, suggesting that their effects are specific for ColE1-type plasmids. Two of the suppressor strains show ColE1 allele-specific suppression; i.e., certain plasmid copy number mutations are suppressed more efficiently than others, suggesting specificity in the interaction between the suppressor gene product and plasmid replication component(s). All of the mutations were genetically mapped to the chromosomal polA gene, which encodes DNA polymerase I. The suppressor mutational changes were identified by DNA sequencing and found to alter single nucleotides in the region encoding the Klenow fragment of DNA polymerase I. Two mutations map in the DNA-binding cleft of the polymerase region and are suggested to affect specific interactions of the enzyme with the replication primer RNA encoded by the plasmid. The third suppressor alters a residue in the 3'-5' exonuclease domain of the enzyme. Implications for the interaction of DNA polymerase I with the ColE1 primer RNA are discussed.     

Construction and characterization of amplifiable multicopy DNA cloning vehicles derived from the P15A cryptic miniplasmid.

Construction and characterization of a class of multicopy plasmid cloning vehicles containing the replication system of miniplasmid P15A are described. The constructed plasmids have cleavage sites within antibiotic resistance genes for a variety of commonly employed site-specific endonucleases, permitting convenient use of the insertional inactivation procedure for the selection of clones that contain hybrid DNA molecules. Although the constructed plasmids showed DNA sequence homology with the ColE1 plasmid within the replication region, were amplifiable by chloramphenicol or spectinomycin, required DNA polymerase I for replication, and shared other replication properties with ColE1, they were nevertheless compatible with ColE1. P15A-derived plasmids were not self-transmissible and were mobilized poorly by Hfr strains; however, mobilization was complemented by the presence of a ColE1 plasmid within the same cell.