Transformation of pathogenic pseudomonas by plasmid DNA]

The possibility has been shown of the genetical transformation of Pseudomonas mallei strains by the purified DNA of the plasmids RSF1010, pES154, pBS222 and pBR325. The frequency of transformation varied from 1.2 x 10(1) to 2.0 x 10(2) depending on the plasmid DNA and transformation technique used in the experiments. Pseudomonas pseudomallei cells could not be transformed by the methods described in the paper.     

RSF1010 plasmid as a potentially useful vector in Pseudomonas species.

RSF1010 plasmid DNA was introduced into Pseudomonas putida and P. aeruginosa cells and maintained stably, suggesting the potential usefulness of this plasmid as a vector in Pseudomonas species. The number of copies of RSF1010 was 43 per chromosome equivalent in P. putida cells.     

Mobilization of a cryptic plasmid from the melioidosis pathogen in heterologous species of microorganisms

Cryptic plasmids with different molecular weights have been detected in B. pseudomallei strains. Mobilization of B. pseudomallei plasmid DNA in heterologous B. mallei species was performed by the conjugate plasmid RP1::Tn10. Possibility of detecting phenotypical characteristics of plasmids and behavior of B. pseudomallei non-chromosomal replicons in B. mallei have been determined.     

Ecological and genetic analysis of copper and streptomycin resistance in Pseudomonas syringae pv. syringae.

Strains of Pseudomonas syringae pv. syringae resistant to copper, streptomycin, or both compounds were recovered from symptomless and diseased tissue of four woody hosts in three nurseries in Oklahoma. In strains resistant to copper and streptomycin (Cur Smr), resistance to both compounds was cotransferred with a single plasmid which was either 68, 190, or 220 kilobase pairs (kb). All Cus Smr strains contained a 68-kb conjugative plasmid. Cur Sms strains contained one plasmid which varied in size from 60 to 73 kb. All conjugative plasmids which transferred streptomycin resistance contained sequences homologous to the strA and strB Smr genes from the broad-host-range plasmid RSF1010. The Smr determinant was subsequently cloned from a 68-kb Cur Smr plasmid designated pPSR1. A restriction map detailing the organization of the homologous Smr genes from pPSR1 and RSF1010 and cloned Smr genes from P. syringae pv. papulans and Xanthomonas campestris pv. vesicatoria revealed the conservation of all sites studied. The Cur genes cloned from P. syringae pv. tomato PT23 and X. campestris pv. vesicatoria XV10 did not hybridize to the Cur plasmids identified in the present study, indicating that copper resistance in these P. syringae pv. syringae strains may be conferred by a distinct genetic determinant.     

Specific-purpose plasmid cloning vectors. II. Broad host range, high copy number, RSF1010-derived vectors, and a host-vector system for gene cloning in Pseudomonas

Host-vector systems have been developed for gene cloning in the metabolically versatile bacterial genus Pseudomonas. They comprise restriction-negative host strains of Pseudomonas aeruginosa and P. putida and new cloning vectors derived from the high-copy-number, broad-host-range plasmid RSF1010, which are stably maintained in a wide range of Gram-negative bacteria. These plasmids contain EcoRI, SstI, HindIII, XmaI, XhoI, SalI, BamHI, and ClaI insertion sites. All cloning sites, except for BamHI and ClaI, are located within antibiotic-resistance genes' insertional inactivation of these genes during hybrid plasmid formation provides a readily scored phenotypic change for the rapid identification of bacterial clones carrying such hybrids. One of the new vector plasmids is a cosmid that may be used for the selective cloning of large DNA fragments by in vitro lambda packaging. An analogous series of vectors that are defective in their plasmid-mobilization function, and that exhibit a degree of biological containment comparable to that of current Escherichia coli vector plasmids, are also described.     

Specific-purpose broad-host-range vectors

Several plasmid derivatives of broad-host-range Inc P4 plasmid RSF1010 were constructed and characterized. Vector pAYC30 was constructed by insertion in vivo into the genome of RSF1010 the Hgr transposon Tn501, originating from the plasmid pVS1 of Pseudomonas aeruginosa. Plasmids with inserts of PstI or SacI fragments may be selected by inactivation of genes sul and aph, respectively. The cloning at unique site SalGI leads to the appearance of HgCl2--sensitive transformants. Versatile cloning vector pAYC1 consists of two replicons, RSF1010 and plasmid pMZ7, a derivative of R6K. The constructed plasmid is 16.9 kb in length and determines resistance to five drugs. Two promoter-probe broad-host-range vectors, pAYC36 and pAYC37, were obtained by replacing a small segment from the DNA sequence of the aph gene promoter of previously described plasmid pAYC32 with the polylinker from plasmid pUC19. Therefore, vector plasmids retained the intact gene aph (Smr); however, they have Sms phenotype because of the insertional inactivation of the promoter. The genetic structure of promoter-probe vectors allows one to select clones, containing hybrid plasmids with an active promoter for gene aph expression.     

Tn3 labeling of a cryptic plasmid found in the plant pathogenic bacterium Pseudomonas tabaci and mobilization of RSF1010 by donation.

pBPW1, a conjugative cryptic plasmid isolated from the plant pathogenic bacterium Pseudomonas tabaci BR2, was labeled with Tn3. pBPW1::Tn3 and RSF1010 mobilization into Pseudomonas mellea recipients were separate events, not involving recombination of the two plasmids during conjugation.     

Transformation of pBR322-Derived Plasmids in Phytopathogenic Pseudomonas avenae and Enhanced Transformation in Its Proline-Auxotrophic Mutant

Efficient transformation of pBR322 and its derived plasmids, which have been widely used as cloning vectors in Escherichia coli, was observed in Pseudomonas avenae (K1), the pathogen of leaf blight disease in cereals. Moreover, there was a 10- to 50-fold transformation efficiency (1.3–3.0 × 10⁶/μg DNA) in the proline-auxotrophic mutant (Pr47), whose virulence to rice seedlings decreased. Similar enhancement of the frequency of transfer by mobilization of RSF1010, a broad host range plasmid, was observed in the recipient Pr47 strain in mating with donor Pseudomonas syringae. The plasmids harbored in these strains were maintained very stably after subcultures. Thus, a highly efficient transformation system with pBR322-derived plasmids used as a vector and Pseudomonas as a host bacterium was developed. Received: 13 July 1996 / Accepted: 26 August 1996     

High-frequency mobilization of broad-host-range plasmids into Neisseria gonorrhoeae requires methylation in the donor.

Antibiotic resistance in Neisseria gonorrhoeae has been associated with the acquisition of R plasmids from heterologous organisms. The broad-host-range plasmids of incompatibility groups P (IncP) and Q (IncQ) have played a role in this genetic exchange in nature. We have utilized derivatives of RSF1010 (IncQ) and RP1 (IncP) to demonstrate that the plethora of restriction barriers associated with the gonococci markedly reduces mobilization of plasmids from Escherichia coli into strains F62 and PGH 3-2. Partially purified restriction endonucleases from these gonococcal strains can digest RSF1010 in vitro. Protection of RSF1010-km from digestion by gonococcal enzymes purified from strain F62 is observed when the plasmid is isolated from E. coli containing a coresident plasmid, pCAL7. Plasmid pCAL7 produces a 5'-MECG-3' cytosine methylase (M.SssI). The M.SssI methylase only partially protects RSF1010-km from digestion by restriction enzymes from strain PGH 3-2. Total protection of RSF1010-km from PGH 3-2 restriction requires both pCAL7 and a second coresident plasmid, pFnuDI, which produces a 5'-GGMECC-3' cytosine methylase. When both F62 and PGH 3-2 are utilized as recipients in heterospecific matings with E. coli, mobilization of RSF1010 from strains containing the appropriate methylases into the gonococci occurs at frequencies 4 orders of magnitude higher than from strains without the methylases. Thus, protection of RSF1010 from gonococcal restriction enzymes in vitro correlates with an increase in the conjugal frequency. These data indicate that restriction is a major barrier against efficient conjugal transfer between N. gonorrhoeae and heterologous hosts.     

Versatile cloning vector for Pseudomonas aeruginosa.

A pBR322:RSF1010 composite plasmid, constructed in vitro, was used as a cloning vector in Pseudomonas aeruginosa. This nonamplifiable plasmid, pMW79, has a molecular weight of 8.4 X 10(6) and exists as a multicopy plasmid in both P. aeruginosa and Escherichia coli. In P. aeruginosa strain PAO2003, pMW79 conferred resistance to carbenicillin and tetracycline. Characterization of pMW79 with restriction enzymes revealed that four enzymes (BamHI, SalI, HindIII, and HpaI) cleaved the plasmid at unique restriction sites. Cloning P. aeruginosa chromosomal deoxyribonucleic acid fragments into the BamHI or SalI site of pMW79 inactivated the tetracycline resistance gene. Thus, cells carrying recombinant plasmids could be identified by their carbenicillin resistance, tetracycline sensitivity phenotype. Deoxyribonucleic acid fragments of approximately 0.5 to 7.0 megadaltons were inserted into pMW79, and the recombinant plasmids were stably maintained in a recombination-deficient (recA) P. aeruginosa host.     

Osa protein constitutes a strong oncogenic suppression system that can block vir-dependent transfer of IncQ plasmids between Agrobacterium cells and the establishment of IncQ plasmids in plant cells

The osa (oncogenic suppressive activity) gene of the IncW group plasmid pSa is sufficient to suppress tumorigenesis by Agrobacterium tumefaciens. osa confers oncogenic suppression by inhibiting VirE2 protein export. This result is similar, but not identical, to that of oncogenic suppression by the IncQ plasmid RSF1010. We conducted a series of experiments to compare oncogenic suppression by these two systems. Agrobacterium strains harboring plasmids containing osa are more able to effect oncogenic suppression than are similar strains containing various RSF1010 derivatives. When osa is present within a donor Agrobacterium strain that also carries a derivative of RSF1010, the transfer of RSF1010 derivatives to recipient bacteria and their establishment in plants are blocked. Oncogenic suppression is still effected when the osa gene is integrated into the Agrobacterium chromosome, suggesting that it is the osa gene product that is active in suppression and that suppression does not require a protein-nucleic acid intermediate like that described for IncQ plasmids. Extracellular complementation experiments with tobacco leaf disks indicated that Osa blocks stable transfer of RSF1010 to plant cells by inhibiting transfer of VirE2, which is essential for the transfer of RSF1010 into plant cells, and not by inhibiting the actual transfer of RSF1010 itself. Our results suggest that Osa and RSF1010 cause oncogenic suppression by using different mechanisms.     

Development of small high-copy-number plasmid vectors for gene expression in Caulobacter crescentus

Caulobacter crescentus is a bacterium with a distinctive life cycle and so it is studied as a cell development model. In addition, we have adapted this bacterium for recombinant protein production and display based on the crystalline surface protein (S)-layer and its C-terminal secretion signal. We report here the development of small, high-copy-number plasmid vectors and methods for producing an obligate expression host. The vectors are based on a narrow-host-range colE1-replicon-based plasmid commonly used in Escherichia coli, to which was added the replication origin of the IncQ plasmid RSF1010. C. crescentus strains were modified to enable plasmid replication by introduction of the RSF1010 repBAC genes at the recA locus. The small (4.0-4.5 kb) plasmids were in high copy numbers in both C. crescentus and E. coli and amenable to rapid methods for plasmid isolation and DNA sequencing. The method for introducing repBAC is suitable for other C. crescentus strains or any bacterium with an adequately homologous recA gene. Application of the vector for protein expression, based on the type I secretion system of the S-layer protein, when compared to constructs in broad-host-range plasmids, resulted in reduced time and steps required from clone construction to recombinant protein recovery and increased protein yield.     

Spontaneous genetic transformation in Pseudomonas pseudomallei

Spontaneous genetic transformation has been registered in Pseudomonas pseudomallei cells. Transforming frequencies registered reach 10(-4)-10(-5). Spontaneous transformation has been simulated for Pseudomonas pseudomallei in soil. Intrageneric spontaneous transformation has been demonstrated to occur between Pseudomonas pseudomallei and Pseudomonas mallei.     

The transformation of legionellae by plasmid DNA

For the first time the possibility of the genetic transformation of L. pneumophila and L. bozemanii strains with the use of purified DNA of plasmids pUC19, pUC4K, pSC101 and RSF1010-pBR322 was shown. The frequency of transformation varied from 5.2 x 10(-6) to 5.8 x 10(-7), depending on the strain used in the experiment and plasmid DNA. In some of the transformants obtained in this investigation plasmid DNA whose molecular weight was similar to that of the plasmid DNA used for transformation was detected. The relatively stable preservation of plasmids pSC101 and RSF1010 in Legionella strains and the loss of plasmids pUC19, pUC4K and pBR322 in 80% of transformants during storage were shown.     

Indigenous plasmids in Pseudomonas syringae pv. tomato: conjugative transfer and role in copper resistance

Twenty strains of Pseudomonas syringae pv. tomato were examined for the presence of plasmid DNA. P. syringae pv. tomato plasmids were grouped into five size classes: class A ranged from 95 to 103 kilobases (kb); class B ranged from 71 to 83 kb; class C ranged from 59 to 67 kb; class D ranged from 37 to 39 kb; and class E was 29 kb. All strains contained at least two plasmids in classes A and B. The conjugative ability of P. syringae pv. tomato plasmids in three strains was demonstrated by mobilization of the nonconjugative plasmid RSF1010 into Pseudomonas syringae pv. syringae recipients. Plasmids from the three conjugative strains were labeled with Tn5. Four conjugative plasmids were identified by their repeated transfer to P. syringae pv. syringae recipients. P. syringae pv. tomato strains varied in sensitivity to copper sulfate (CuSO4): MICs were 0.4 to 0.6 mM for sensitive strains, 1.2 mM for moderately resistant strains, and 1.6 to 2.0 mM for very resistant strains. One very resistant strain, PT23, functioned as a donor of copper resistance. Recipient P. syringae pv. syringae strains PS51 and PS61 were inhibited by 0.1 mM CuSO4, whereas the CuSO4 MICs for transconjugant strains PS51(pPT23A) and PS61(pPT23C) were 1.8 and 2.6 mM, respectively. P. syringae pv. tomato strains PT12.2 and PT17.2 were inhibited by 0.6 mM copper sulfate, but their copper sulfate MICs were 2.6 and 1.8 mM, respectively, when they acquired pPT23C. Therefore, copper resistance in PT23 was controlled by two conjugative plasmids, designated pPT23A (101 kb) and pPT23C (67 kb).     

Construction of stably maintained non-mobilizable derivatives of RSF1010 lacking all known elements essential for mobilization

Background  

RSF1010 is a well-studied broad-host-range plasmid able to be mobilized to different bacteria and plants. RSF1010-derived plasmid vectors are widely used in both basic research and industrial applications. In the latter case, exploiting of mobilizable plasmids or even the plasmids possessing negligible mobilization frequency, but containing DNA fragments that could promote conjugal transfer, is undesirable because of biosafety considerations. Previously, several mutations significantly decreasing efficiency of RSF1010 mobilization have been selected. Nevertheless, construction of the RSF1010 derivative lacking all known loci involved in the conjugal transfer has not been reported yet.     

Deletion plasmids from transformants of Pseudomonas aeruginosa trp cells with the RSF1010-trp hybrid plasmid and high levels of enzyme activity from the gene on the plasmid.

A RSF1010-trp hybrid plasmid which contained the tryptophan operon of Escherichia coli was introduced into Pseudomonas aeruginosa trp cells by transformation. From the Trp+ transformants several deletion plasmids were obtained, and their physical maps with restriction endonucleases were constructed. P. aeruginosa trp cells with these plasmids showed at first more than 100 times higher levels of tryptophan synthetase beta activity over that of the control P. aeruginosa wild-type cells, but these levels were drastically decreased by 1 week of successive transfers of cultures. This decrease in enzyme activity was found to be due to the change on the plasmids but not to the host cells. The production of E. coli tryptophan synthetase beta enzyme in P. aeruginosa cells was proved by immunological test.