Relationship of group P1 plasmids revealed by heteroduplex experiments: RP1, RP4, R68 and RK2 are identical.

The molecular relationships of the IncP1 plasmids RP1, RP4, R68 and RK2 were tested by electron microscopic examination of heteroduplexes. In several hybridization experiments molecules were detected which had a 7.8% portion of incomplete reannealing. This 'heterologous region' could be explained by the typical renaturation behaviour of the transposon Tn1. The identity of the Tn1 transposon present in RP1 and RP4 was proved by heteroduplex experiments with lambda phage DNA containing this transposon. These results indicated that the plasmids RP1 and RP4 are identical. Additional heteroduplex experiments between plasmids R68.45 and RP8 and between R68.45 and RK2 were performed. R68.45, a derivative of R68, has a small DNA insertion and RP8 can be regarded as a large insertion mutant of RP4; both insertions were used as single-stranded hybridization markers. From the hybrid molecules formed, it was deduced that R68 and RK2 are identical with RP1 and RP4 as far as molecular structure is revealed by the technique used.     

Transfer of plasmids RP4 and R68.45 and chromosomal mobilization in cowpea rhizobia

R-plasmids RP4 and its derivatives R68.45 were transferred from Escherichia coli to two cowpea rhizobia strains. The frequency of RP4 transfer in cowpea rhizobia strains JRC23-SM20 and IRC256-HA409 was 1,000-fold higher than transfer frequency of R68.45. The transconjugants were further used to transfer R-plasmids within (isogenic) and between (non-isogenic) cowpea rhizobia strains. The plasmid transfer frequency was higher in isogenic than non-isogenic strains. The ability of R-plasmids to mobilize chromosomal genes in cowpea rhizobia was also examined. R-plasmids mediated the chromosomal transfer; however, mobilization of chromosomal markers Sm^R and Met⁺ by RP4 in isogenic strains was more efficient than by R68.45. Chromosomal mobilization has not previously been reported in cowpea rhizobia.Abbreviations Ap ampicillin - Km kanamycin - Tc tetracycline - Rif rifampicin - TYS tryptone yeast-extract sodium chloride - YEMA yeast-extract mannitol agar - YEMB yeast-extract mannitol broth Part of the work was presented in 6th International Symposium on Nitrogen Fixation at Oregon State University, Corvallis, August 4–10, 1985     

IS8- and Tn2353-mediated cointegration of the plasmids R15 and RP4::Tn1

Summary The plasmids R15 and RP4:: Tn1 form fused structures (85 Md and 92 Md cointegrates). The cointegrates do not resolve practically in recA ^– Escherichia coli cells and have a mean life-time of more than 50 generations in a recA ⁺ background.The 85 Md cointegrates were generated at a frequency of 4×10^–4 per R15 transconjugant during a mating between E. coli [R15; RP4:: Tn1] and E. coli [FColVBtrp:: Tn1755]. These plasmids carry two directly repeated copies of the mobile element IS8 at the junctions between R15 and RP4:: Tn1. The transposition of IS8 from RP4:: Tn1 to the R15 plasmid and the formation of hybrid molecules promoted by this process appear to be induced by the IS8 element of the Tn1755 structure during or after conjugal transfer of FColVBtrp:: Tn1755 into E. coli [R15; RP4:: Tn1] cells.The formation of the 92 Md cointegrates occurs at a frequency of 2×10^–5. The fused molecules of R15 and RP4:: Tn1 carry two direct copies of an 8.65 Md R15 fragment at the junctions between these replicons. The fragment has specific features of a new transposon. This element designated Tn2353 determines resistance to Hg, Sm and Su and contains two sites for each BamHI, BglII and SalI and three sites for both EcoRI and PstI. The physical map and some other characteristics of Tn2353 are presented.Abbreviations Ap ampicillin - EtBr ethidium bromide - Km kanamycin - Md megadaltons - Sm streptomycin - Su sulfanilamide - Tc tetracycline - [] brackets indicate plasmid-carrier state     

IncP-1 R plasmids decrease the serum resistance and the virulence of Pseudomonas aeruginosa

Pseudomonas aeruginosa strain PAO1 was compared to PAO1 strains containing an IncP-1 R plasmid (RP1, R68, or R68.45) in an experimental mouse burn infection model. All R plasmids tested caused a 10- to 400-fold increase in mean lethal dose (LD50). The decrease in virulence produced by plasmids R68 and R68.45 was significantly greater than the decrease caused by the closely related plasmid RP1. All plasmids also led to an increased sensitivity of strain PAO1 to human serum bactericidal activity. Virulence and serum resistance of strain PAO1 were restored by curing of the entire plasmid R68.45 but not by deletions in the plasmid's transfer gene regions.     

Conjugational transfer systems of Rhodopseudomonas capsulata mediated by R plasmids

Plasmids RP1, R68.45 and RP4::Mu cts 61 were transferred into Rhodopseudomonas capsulata from Escherichia coli. The frequency of intraspecies transfer of these plasmids in R. capsulata was 10^-4–10^-5 per donor. The plasmids also mobilized chromosomal genes at a low frequency. Phototrophic recombinants from matings between recipient strains defective in the photosynthetic-apparatus and wild type donors were obtained at a frequency of 10^-7–10^-8 per donor.     

Direct repetition of a 1.2 Md DNA sequence is involved in site-specific recombination by the P1 plasmid R68

R68.45, a mutant R68 plasmid, carries a 1.5 Md DNA insertion near its kanamycin-resistance region. This DNA consists of a 1.2 Md DNA repetition of neighbouring R68-DNA and a 0.3 Md “foreign” DNA fragment that is flanked by this direct DNA repeat. This fragment seems to be involved in the formation of R'68.45 plasmids. Duplication of the 1.2 Md DNA sequence is also involved in site-specific recombination events of RP4. This 1.2 Md DNA fragment has the properties of an IS sequence and is denoted IS8.     

Adsorption of bacteriophages specific for Pseudomonas aeruginosa R factors RP1 and R1822

Short, thick pili were found by electron microscopy on bacteria carrying the P group drug resistance plasmids RP1 and R1822. The R1822-specific phage PRR1 was seen to adsorb to the bases of the pili. Three RP1-specific phages, one filamentous (Pf3), and two with very thick capsids (PR3, PR4), were seen to attach all around the surface of $\text{P. aeruginosa}$ cells, and were thought to be somatic, since pilus phages appear to be strictly polar on this species. PR3 and PR4 also lysed a strain of $\text{E. coli}$ containing an N group plasmid, suggesting a relationship between the N and P group plasmids.     

R factor variants with enhanced sex factor activity in Pseudomonas aeruginosa

Summary The R factor R68 readily promotes chromosome transfer in Pseudomonas aeruginosa strain PAT, but shows little such sex factor activity in strain PAO. A variant of this plasmid, R68.45, has been isolated which produces recombinants in PAO plate matings at frequencies of 10^-3–10^-5 per donor cell for markers in the 0–60 min region of the chromosome. Little or no chromosome transfer was shown in liquid media. The kinetics of chromosome transfer were studied by interrupting matings on solid media with nalidixic acid. Five chromosomal markers, mapping in widely spaced regions of the chromosome all entered 3–5 min after initiation of mating. These results, combined with linkage studies, indicate that R68.45, unlike the Pseudomonas sex factors FP2 and FP39, promotes chromosome transfer from a range of origin sites and can thus be used for mapping the region of the P. aeruginosa chromosome later than 40 min.R68.45 and other similar variants were isolated from rare chromosomal recombinants appearing in crosses between PAO(R68) donors and PAO recipients in which selection for argB ⁺ was made. Selection for other chromosomal markers did not result in such variants suggesting that plasmids of the R68.45 type arise by recombination of genetic material between the R68 plasmid and certain regions of the bacterial chromosome.     

A chromosomal linkage map of Azotobacter vinelandii

Summary A chromosomal map of Azotobacter vinelandii strain UW was constructed. The map was based on measures of cotransfer of various markers mediated by plasmids R68.45 and pJB3JI, on results obtained from conjugal experiments with R-primes, and on recombinants obtained by chromosomal transfer mediated by RP4/Tn5-Mob.     

Chromosome mobilization by the R plasmid R68.45: a tool in Pseudomonas genetics.

Summary The conjugative plasmid R68.45 mobilizes the chromosome of Pseudomonas aeruginosa strain PAO from multiple sites located in different chromosome regions. In interrupted matings on the plate, selection for any single marker tested resulted in entry times of 3–5 min. When selection was imposed for two markers linked in R68.45-mediated conjugation, double recombinants appeared after a delay which corresponded approximately to the map distance between the two markers as measured by the sex factor FP2. Thus, R68.45 and FP2 appear to promote chromosome transfer at similar rates, but R68.45, unlike FP2, seems to give non-polarized transfer. R68.45 may be used to estimate map distances between linked markers located in those chromosome regions where other sex factors do not produce enough recombinants to permit accurate measurement of entry times.In R68.45 matings on the plate, most recombinants inherited short donor chromosome fragments (usually less than 10 min long) and lost the R plasmid during purification. Used like a large generalized transducing phage, R68.45 has proved valuable in construction of PAO strains with desired genotypes.     

Transfer of RP4 and R68.45 factors to Rhizobium.

Two R factor were introduced by conjugation into Rhizobium trifolii and Rhizobium meliloti strains at a frequency of 10(-5) to 10(-6). Plasmids RP4 from Escherichia coli J53 and R68.45 from Pseudomonas aeruginosa PAO.25 were maintained stably in Rhizobium hosts and could be retransferred to other Rhizobium recipients. Some of the transconjugants were able to mobilize chromosome and transfer his or met genes in intra-, and interspecies matings.     

Mapping of RP4 plasmid using deletion mutants of pAS8 hybrid (RP4-ColE1)

Summary We used the hybrid plasmid pAS8 in order to conduct the genetic analysis of RP4 plasmid. The presence of two replicons in the hybrid plasmid permitted to expand the spectrum of deletion mutants of RP4 isolated, which are capable to autonomous replication. The shortening of the hybrid plasmid was achieved by P22 transduction, by induction of deletion mutants using mitomycin C, as well as by selection of Tra^- mutants on the basis of resistance of cells to P-specific phages. These techniques have lead to isolation of clones possessing different combinations of plasmid resistance determinants.Comparison of phenotypic characteristics of deletion plasmids pAS9, pAS10, pAS11, pAS12 and pAS10-2 permitted to propose the map for pAS8 plasmid with the following sequence of markers: trakan-ColE1-amp-tet...Heteroduplex analysis of deletion mutants of pAS8 permitted to construct a physical map and to elaborate in greater detail the functional map of RP4 plasmid. The correlation between the ability of mutants to replicate in polA (TS) strain at nonpermissive conditions and the length of the deleted segment permitted to map rep genes of RP4 on a region with coordinates 9.8–17.3 kb. A relationship between the manifestation of incompatibility of mutants with Inc P-1 plasmids and the length of deletions points out that inc genes are located on DNA region with coordinates 2.1–9.8 kb. The analysis of replication of deletion mutants and the manifestation of incompatibility just as of the data about the size of appropriate deletions permitted to make the conclusion about the functional and genetic independence of the replication control and incompatibility control in RP4 plasmid.     

Mapping and cloning of the par-region of broad-host-range plasmid RP4

Various deletion mutants of the identical broad-host-range plasmids RP4 and RK2, obtained after conjugative transfer of these plasmids from Escherichia coli to Alcaligenes eutrophus H16, were tested with respect to their segregation behaviour. Although the parent plasmids and some of the deletion mutants were completely stable in both A. eutrophus and E. coli, other derivatives were lost under non-selective conditions. The analysis of these deletion mutants allowed the identification and mapping of a region encoding a partitioning system (par) between the tra2 region and the kanamycin resistance gene of RP4 (RK2). This area corresponds to the PstI-C restriction fragment of RP4 (RK2). Cloning of this fragment into several unstable vector plasmids including pBR322 and pACYC177 resulted in all cases in an increase of segregational stability. By insertion of the par-region into an unstable broad-host-range mobilizable plasmid and transfer to a series of gram-negative bacteria, it could be shown that the cloned par-region of RP4 is functional in a broad-host-range.     

In vivo generation of R68.45-pPGH1 hybrid plasmids conferring a Phl+ (meta pathway) phenotype

Summary Plasmid pPGH1 originating from Pseudomonas putida strain H carries all the genes required for the degradation of phenol (or cresols) via the meta cleavage pathway. Besides mobilization of pPGH1 by a plasmid of the incompatibility group P-1, hybrid plasmids conferring the Phl⁺ phenotype could be selected, when R68.45 was the conjugative plasmid. The hybrids contain the complete R68.45 and part of pPGH1. Integration of Phl-DNA of pPGH1 into R68.45 occurred exclusively via the IS21 region of R68.45.Dedicated to Udo Taubeneck on the occasion of his 60th birthday     

A relationship between RP4 plasmid acquisition and phenotypic changes in Pseudomonas fluorescens R2fN

The physiological behaviour of Pseudomonas fluorescens strain R2fN was compared to that of transconjugants [R2fN(RP4)], and two aggregation phenotypes were identified (Agr^– and Agr⁺). Agr⁺ phenotype is characterized by the appearance of macroscopic aggregates when cells are growing in liquid media. Transconjugants exhibited Agr⁺ phenotype whereas wild type strain represented Agr^–. Evidence is presented to support correlation between Agr⁺ phenotype acquisition and the presence of the broad-host range plasmid RP4 in strain R2fN. In addition, according to bacterial adherence to hydrocarbon test the transconjugant cells appeared to be very hydrophilic whereas wild type R2fN cells were hydrophobic.     

Transfer of Drug Resistance Factors to the Dimorphic Bacterium CAULOBACTER CRESCENTUS

The P-type drug resistance factors RP4, RK2, R702, R68.45, and the N-type drug resistance factor R46 are transferred to Caulobacter crescentus at high frequencies. They are stably maintained and their antibiotic resistances are expressed. Experiments with RP4 have shown that intergeneric transfer of RP4 occur at a frequency of 10(-1). C. crescentus strains maintain RP4 as a plasmid, are sensitive to RP4-specific phage, and segregate phage-resistant cells at a frequency of 10(-4) to 10(-5). The RP4 plasmid can be used in several ways: (1) the RP4 plasmid will promote chromosomal exchange between C. crescentus strains at frequencies ranging from 10(-6) to 10(-8); (2) RP4 will promote the transfer of nonconjugative colE1 plasmids from E. coli to C. crescentus; once transferred, the colE1 plasmid is stably maintained under nonselective conditions, can be transferred serially, and segregates independently from RP4; and (3) RP4 can be used to introduce transposons into the C. crescentus chromosome, providing the basis for additional genetic techniques.     

Effect of copper (II) on survival of Pseudomonas fluorescens and transfer of plasmid RP4 in soil

Survival of Pseudomonas fluorescens (R2f, RP4), P. fluorescens (R2f) and plasmid RP4 transfer efficiency depended on the concentration of Cu (II) and the time of incubation. The indigenous heterotrophic bacteria were more tiolerant to Cu (II) than the introduced strains. Although transconjugants were present for the first 3 days, the frequencies of conjugation and absence of transconjugants at 14 days indicate that conjugation occurred early in the incubation and that transconjugants were unable to survive for very long.The author is with the Department of Microbiology, Sllesian University, Jagiellonska 28, 40-032 Katowice, Poland     

Transfer of plasmid RP4 to Myxococcus xanthus and evidence for its integration into the chromosome.

The broad-host-range plasmid RP4 and its derivative R68.45 were transferred to Myxococcus xanthus DK101 and DZ1; RP4 was maintained integrated in the chromosome. Loss of plasmid markers occurred during the growth of the transconjugants, which could be prevented by selective pressure with oxytetracycline. The integrated plasmid was transferred back to Escherichia coli often as RP4-prime plasmids carrying various segments of the M. xanthus chromosome. It also mediated chromosomal transfer between M. xanthus strains.     

Fertility inhibition in Rhizobium lupini by the resistance plasmid RP4

Summary R plasmid RP4 inhibits the fertility of R. lupini. An RP4 carrying R. lupini donor strain is no longer capable of transferring chromosomal genes. After loss of RP4 the R. lupini fertility reappears. Plasmid RP4 spontaneously mutates at high frequency in R. lupini. RP4 mutants which do not inhibit fertility were isolated. These mutants were always transfer-defective, too. It is postulated that the genetic information for fertility inhibition in R. lupini is a substantial part of the transfer unit of the RP4 plasmid.     

Conjugation in Rhodopseudomonas sphaeroides mediated by R plasmids

Plasmids R68.45, RP4, RP4::Mu cts62, RP1ts::Tn10, RP1ts::Tn9, Rts1 and RP41 were transferred into cells of photosynthetic nitrogen-fixation bacterium Rhodopseudomonas sphaeroides from Escherichia coli and Pseudomonas aeruginosa. The transfer of plasmids occurred with high frequency of 10(-1) to 10(-2) per donor cell in all cases. Mobilization of R. sphaeroides 2R chromosome was obtained by RP4 and Rts1 plasmids at a frequency of 10(-7) to 10(-8) per donor cell in all cases. Mobilization of R. sphaeroides 2R chromosome was obtained by RP4 and Rts1 plasmids at a frequency of 10(-7) to 10(-8) per donor cell. Bacteriophage Mu cts62 could be induced from the plasmid DNA in R. sphaeroides 2R cells and was capable of the lytic growth and producing phage progeny. It was demonstrated that an increase in the efficiency of donor chromosomal genes transfer into recipient cells could be achieved in crosses with the donor carrying RP4::Mcts62 plasmid.