Tn501 insertion mutagenesis in Pseudomonas aeruginosa PAO

Summary Transposon insertion mutagenesis of the Pseudomonas aeruginosa PAO chromosome with Tn1 and Tn501 was carried out using a mutant plasmid of R68::Tn501 temperature-sensitive for replication and maintenance. This method consists of three steps. Firstly, the temperature-independent, drug-resistant clones were selected from the strain carrying this plasmid. In the temperature-indepent clones, the plasmid was integrated into the chromosome by Tn1- or Tn501-mediated cointegrate formation. Secondly, such clones were cultivated at a permissive temperature to provoke the excision of the integrated plasmid from the chromosome. Excision occurred by the reciprocal recombination between the two copies of Tn1 or Tn501 flanking the integrated plasmid, leaving one Tn1 or Tn501 insertion on the chromosome. Thirdly, the excised plasmid was cured by cultivating these isolates at a non-permissive temperature without selection for the drug resistance. Using this method, we isolated 1 Tn1-induced and 43 Tn501-induced auxotropic mutations in this organism. Genetic mapping allowed us to identify two new genes, pur-8001 and met-8003. The Tn501-induced auxotrophic mutations were distributed non-randomly among auxotrophic genes, and the reversion of the mutations by precise excision of the Tn501 insertion occurred very rarely.     

Marking of a Sym plasmid of Rhizobium with Tn7

Summary Transposon Tn7 was inserted into wide host range plasmid pSUP202 and used as a suicide plasmid vehicle for transposon mutagenesis in Rhizobium leguminosarum. Tn7 is transposed with high frequency into the self-transmissible plasmid pJB5JI without affecting the transfer, nodulation and nitrogen fixation functions. Tn7 transposition provides a useful tool for marking symbiotic plasmids.     

Site-specific properties of Tn7 transposition into the E. coli Chromosome

Summary A study has been made of the insertional properties of transposon Tn7, a 14 kilobase transposable element encoding resistances to trimethoprim, streptomycin and specitinomycin. It has previously been shown that Tn7 transposes at a low frequency and with low specificity into multiple sites in large transmissible plasmids. However, Tn7 transposes with extrame specificity and at high efficiency into the E. coli chromosome. In all cases we have studied, insertion of Tn7 into the chromosome has occurred at a unique site and with a unique orientation. A combination of genetic and biochemical techniques have been used to precisely locate this site on the E. coli chromosome to minute 82 on the linkage map between markers glmS and uncA.To investigate the nature of this highly specific transpositional event, a small region of the E. coli chromosome that includes the unique site, was cloned into the plasmid vector pBR322. Subsequently a lkb restriction fragment, including the Tn7 insertion site, was sub-cloned from this plasmid into the plasmid pACYC184. We show that Tn7 transposes into both these plasmid recombinants with the frequency and specificity characteristie of the E. coli chromosome.     

Transposition of Tn 1 to the Rhizobium meliloti genome

Summary A derivative of the IncP1 plasmid RP4, carrying the thermoinducible prophage Mucts62, was obtained in Escherichia coli K 12 J53 (RP4). It was impossible to maintain the hybrid plasmid RP4: Mucts62 in Rhizobium meliloti GR4. Thus, it was used as a vehicle for introducing the ampicillinresistant transposon Tn1 introducing the ampicillinresistant transposon Tn1 into the R. meliloti genome.Transposition of Tn1 did not generate auxotrophic strains, suggesting that the insertion of Tn1 into the R. meliloti genome was relatively specific. Two chromosomal hot spots for Tn1 insertion were identified by cotransductional analysis, after general transduction by phage DF2. Plasmid-curing experiments, carried out by heat treatment, revealed that symbiotic plasmid(s) also contain at least one site for Tn1 insertion.     

Site-specific mutagenesis of the Ti plasmid by transformation of Agrobacterium tumefaciens with mutagenized T-DNA fragments cloned in E. coli plasmids

Summary A DNA fragment covering the complete T-region of the Ti plasmid from Agrobacterium tumefaciens strain C58 was cloned in the Escherichia coli cosmid pHC79. This fragment was mutagenized by insertion of transposon Tn5. The isolated DNA from hybrid plasmids was used to transform cells of A. tumefaciens strain C58 applying the freeze-thaw method. Although the E. coli plasmids with the mutagenized Ti plasmid fragment cannot replicate in these cells, they can be rescued by recombination with the homologous region of the Ti plasmid. The cointegrates formed were resolved in a second recobination event, which was detected by loss of the drug resistance marker of the E. coli plasmid. Subcloning of the Ti plasmid fragments labeled with Tn5 showed that the frequency of rescue of the hybrid plasmid as a cointegrate and its segregation in agrobacteria depend on the degree of homology with the Ti plasmid. We also applied the strategy for site-directed Tn5 mutagenesis to insert specifically the replication origin of bacteriophage fd and the thymidine kinase gene from Herpes virus into the T-DNA of Ti plasmid-C58.     

Functional Comparison of Conjugative Transposons Tn916and Tn925

During interspecies matings betweenBacillus subtilisandBacillus thuringiensissubsp.israelensis,transfer of conjugative transposon Tn916was detected at a frequency of 1.1 × 10⁻⁴transconjugants per donor. Tn916-dependent transfer of plasmids pC194 and pE194 was detected at frequencies of 1.4 × 10⁻⁵and 3.2 × 10⁻⁷transconjugants per donor, respectively. Similar frequencies were obtained during parallel matings with otherwise isogenic strains that contain Tn925instead of Tn916. Tn916- or Tn925-dependent transfer of plasmids pC194 or pUB110 from the recipient to the donor (retrotransfer) was not observed during inter- or intraspecies matings. Transposon-mediated plasmid transfer by Tn916and Tn925is a Rec independent event. Thus, the data from studies in which otherwise isogenic donor and recipient strains were used indicated that Tn916and Tn925are, from a functional point of view, much more similar than previously suggested.     

The transposable elements resident on the plasmids of Pseudomonas putida strain H, Tn 5501 and Tn 5502 , are cryptic transposons of the Tn 3 family

Genes for (methyl)phenol degradation in Pseudomonas putida strain H (phl genes) are located on the plasmid pPGH1. Adjacent to the phl catabolic operon we identified a cryptic transposon, Tn5501, of the Tn3 family (class II transposons). The genes encoding the resolvase and the transposase are transcribed in the same direction, as is common for the Tn501 subfamily. The enzymes encoded by Tn5501, however, show only the overall homology characteristic for resolvases/integrases and transposases of Tn3-type transposons. Therefore it is likely that Tn5501 is not a member of one of the previously defined subfamilies. Inactivation of the conditional lethal sacB gene was used to detect transposition of Tn5501. While screening for transposition events we found another transposon integrated into sacB in one of the sucrose-resistant survivors. This element, Tn5502, is a composite transposon consisting of Tn5501 and an additional DNA fragment. It is flanked by inverted repeats identical to those of Tn5501 and the additional fragment is separated from the Tn5501 portion by an internal repeat (identical to the left terminal repeat). Transposition of phenol degradation genes could not be detected. Analysis of sequence data revealed that the phl genes are not located on a Tn5501-like transposon. Received: 21 July 1997 / Accepted: 7 July 1998     

Analysis of Tn5 inversion events inEscherichia coli plasmids

The ability of the bacterial transposon Tn5 to undergo sequence inversion in Rec⁺ Escherichia coli cells as a result of recombination between its duplicated IS50 elements was examined using specially designed plasmid constructs. Surprisingly, recombination events in the IS50 elements that led to crossover and therefore Tn5 inversion could be detected at a frequency of only 10^–5. This was approximately an order of magnitude lower than the frequency of IS50 recombination that led to conversion events (i.e. non-reciprocal recombination) without crossover, and at least two orders of magnitude lower than the frequency of intermolecular recombination between IS50 elements on two different plasmids. These rare conversion and inversion events in Tn5 appeared to be due to intramolecular recombination and not simply to multiple rounds of reciprocal crossing over, since the heterodimeric intermediates that would be generated during the latter process could be readily isolated but were shown to yield a completely different set of plasmid products upon resolution.     

Identification and phenotypical characterization of a cluster of fix genes, including a nif regulatory gene, from Rhizobium leguminosarum PRE

Summary A nif regulatory gene in R. leguminosarum PRE was identified by interspecies DNA hybridization and site-directed Tn5 mutagenesis. Significant homology was found with the K. pneumoniae nifA locus, a R. meliloti symbiotic regulatory gene and E. coli ntrC; Tn5 insertions within this nifA gene inhibit the expression of the nifHDK operon, encoding synthesis of the nitrogenase polypeptides.Specific DNA hybridization also was detected between a downstream adjacent part of the PRE sym plasmid and the R. leguminosarum 248 fixZ gene, a homologue of the K. pneumoniae nifB locus. To detect further fix genes we investigated a region of the sym plasmid which is localized within a short distance upstream from the nifA gene and is transcribed selectively at a high rate during symbiosis. This approach revealed the existence of a fix cluster in which Tn5-mutations cause a Fix^- phenotype although wild-type levels of nitrogenase synthesis were detectable. In a sym plasmid fragment, which is immediately upstream adjacent to the nifA locus and only moderately expressed in Rhizobium bacteroids, a second fix gene conferring the same symbiotic phenotype was detected.     

Characterization of aStaphylococcus aureusTransposon, Tn5405,Located within Tn5404and Carrying the Aminoglycoside Resistance Genes,aphA-3andaadE

A new staphylococcal composite transposon, designated Tn5405,carrying the genesaphA-3andaadE,which encode resistance to aminoglycosides, was partially characterized. The transposon is 12 kb long and is flanked by inverted repeated sequences displaying the characteristic features of an insertion sequence, named IS1182.This insertion sequence is 1864 bp long and has 23/33-bp imperfect inverted repeats at its ends. One of the IS1182copies delimiting Tn5405contains a copy of IS1181flanked by 8-bp direct repeats. Tn5405was found in the chromosome of MRSA clinical isolate BM3121, within a Tn552-related transposon, Tn5404.Tn5404was previously characterized following its transposition onto a β-lactamase plasmid harbored by BM3121. Two forms of the recombinant β-lactamase-encoding plasmid generated by the inversion of Tn5405within Tn5404were detected. IS1182was not detected in the DNA of 4 of the 17 tested MRSA isolates containingaphA-3and resistant to streptomycin. Thus,aphA-3andaadEgenes are not disseminated only by Tn5405or related transposons delimited by IS1182.     

Molecular Characterization of an Aberrant Mercury Resistance Transposable Element from an Environmental Acinetobacter Strain

We present the complete nucleotide sequence of a mer operon located on a 60-kb conjugative plasmid pKLH2 from an environmental bacterium, Acinetobacter calcoaceticus , isolated from a mercury mine. The pKLH2 mer operon has essentially the same gene organization as that of Tn21 and Tn501 from clinical bacteria. The pKLH2 mer operon nucleotide sequence shows 85.5% identity with the Tn501 and 80.9% identity with the Tn21 sequences. Vestigial sequences have been found at the ends of the pKLH2 mer operon, indicating that the pKLH2 mer operon was once a part of a Tn21-like transposon, which had committed suicide by an aberrant resolution event.     

Transposon mutagenesis of Rhizobium japonicum

Summary We report here successful mutagenesis with Transposon Tn5 of three slow-growing strains of Rhizobium japonicum USDA 122, 61A76, USDA 74 and one fast-growing strain, USDA 191. Strains were chosen as representatives of different DNA homology and serogroups of this divergent species, which effectively nodulate North American soybean cultivars. The source of Tn5 was the suicide plasmid pGS9, which possesses broad host range N-type transfer genes in a narrow host range p15A replicon. The selection of Tn5 mutants was facilitated by the expression of the Tn5 encoded streptomycin gene in R. japonicum. Kanamycin and streptomycin resistant colonies appeared from interspecific crosses with E. coli at optimal frequencies of 10^-6 for R. japonicum USDA 61A76 and USDA 191 and 5x10^-7 for R. japonicum USDA 122 and USDA 74. Altogether, 6550 Tn5 mutants were isolated in USDA 122 and 61A76, and a small number from USDA 74 and USDA 191. Colony hybridization showed that all tested mutants of 61A76 and USDA 122 contained Tn5. Physical analysis of total DNAs from representative numbers of USDA 122, 61A76 and USDA 191 mutants revealed that each of them carried one copy of the transposon integrated randomly in the genome. This was also true for most USDA 74 mutants. Screening of mutants for auxotrophy showed frequencies of 0.2% for USDA 122 and 0.08% for 61A76. Several symbiotically defective mutants were identified on plants, Glycine soja and G. max.     

Molecular cloning of protease gene(s) from Xanthomanas campestris pv. campestris: Expression in Escherichia coli and role in pathogenicity

Summary The recombinant plasmid pIJ3070 isolated from a genomic library of Xanthomonas campestris pv. campestris constructed in the conjugal cosmid pLAFR3 contains protease gene(s) which can be expressed in Escherichia coli. Tn5 mutagenesis and subcloning revealed that the protease structural gene(s) is(are) located in a ca. 10 kb EcoRI fragment. Several protease-minus mutants of X. c. campestris were obtained by Tn5 mutagenesis of pIJ3070 and marker exchange techniques. Studies of pathogenicity of these Tn5 mutants showed that the protease is not critically important for the pathogenicity of X. c. campestris on turnip plants but may play a minor role in disease development.Abbreviations Gm gentamicin - Km kanamycin - Rif rifampicin - Spc spectinomycin - Sm streptomycin - Tc tetracycline     

Impaired nitrogen fixation and glutamine synthesis in methionine sulfoximine sensitive (MSs) mutants of Rhizobium phaseoli

Summary Random Tn5 mutagenesis of antibiotic-resistant derivatives of Rhizobium phaseoli CFN42 yielded several independent mutants that were sensitive to methionine sulfoximine (MS^s), a specific inhibitor of glutamine synthetase (GS). These MS^s mutants were analyzed for GSI and GSII activities and for their symbiotic properties. Four classes of MS^s mutants have been distinguished. Class I strains are impaired in their synthesis of glutamine and in their symbiotic properties. Class II strains have wild type levels of GSI and GSII activities but have a reduced capacity to fix nitrogen. Class III strains have lost GSII activity, but their symbiotic properties are wild type. In class IV mutants neither glutamine synthesis nor symbiotic properties are affected. Mutants of classes I, III, and IV all have the Tn5 inserted into the chromosome, whereas in class II mutants the Tn5 is located in plasmid p42e, a plasmid different from the previously identified symbiotic plasmid p42d.     

Transposon Tn5 mutagenesis of genes for the photosynthetic apparatus in Rhodopseudomonas capsulata

Summary Three plasmids containing the transposon Tn5, i.e. pSUP201::Tn5, pACYC184::Tn5 and pJB4JI were transferred from Escherichia coli to Rhodopseudomonas capsulata in order to mutagenize the genome. Mutants defective in bacteriochlorophyll and carotenoid synthesis and mutants unable to form the photochemical reaction center or one of the light-harvesting complexes were isolated. Of special interest were mutants that could not form the light-harvesting complex B800-850. Two of these mutants synthesized only two of the three polypeptides of this complex whereas the corresponding near infrared absorbance bands were not observed. Complementation analysis with the Rprime plasmid pRPS404, which contains a 50 kb region of the genome of R. capsulata carrying most genes responsible for expression of photosynthetic apparatus, revealed that some genes of the B800-850 light-harvesting complex lie outside this photosynthetic gene cluster.Abbreviations Bchl Bacteriochlorophyll - Cm chloramphenicol - Km kanamycin - Tc tetracycline - Ap ampicillin - Gm gentamicin - Spc spectinomycin     

R46 encodes a site-specific recombination system interchangeable with the resolution function of TnA

Transposition of TnA onto the IncN plasmid R46 generates unstable DNA molecules. The R46::TnA recombinant plasmids undergo further DNA rearrangements which depend on the orientation in which the TnA element is inserted into the plasmid, and deletions and inversions of R46 and TnA sequences have been observed. Both types of rearrangement have the same specific endpoints, one within TnA and one located between the R46 coordinates, 36.0 and 37.0. The results are consistent with the operation of arecA-independent, site-specific recombination system utilizing, at least in part, the transposon cointegrate resolution system of TnA, together with R46-encoded functions. Data are presented that indicate that R46 encodes analogs of both theres site of TnA and itstnpR gene, although little homology between this element and the plasmid is apparent. Models for the TnA-induced generation of site-specific deletions and inversions upon transposition of TnA to R46 are presented.     

In vivo isolation of a pPJ3a-λ cosmid mediated by the Tn2307 transposon

From an E. coli cell harboring plasmid pPJ3b (= pPJ3a::Tn2301) and infected with phage λ, we have isolated two defective phages having inserted pPJ3a DNA and Tn2301 in their genomes. One of them has been extensively characterized: it behaves like a cosmid, i.e., upon injection into the cell, its DNA circularizes and replicates as a plasmid (pPJ10); it can be packaged again in λ heads, provided the presence of a phage helper. Furthermore, heteroduplex analysis has shown that in pPJ10, the transposon Tn2301 is inverted compared to its direction in pPJ3b. We give evidence suggesting that this type of inversion is in part mediated by Tn2301.     

Tn5 mutagenesis of Rhizobium trifolii host-specific nodulation genes result in mutants with altered host-range ability

Summary A 14 kb DNA fragment from the Sym plasmid of the Rhizobium trifolii strain ANU843, known to carry common nodulation nod and host specific nodulation hsn genes, was extensively mutagenised with transposon Tn5. A correlation between the site of Tn5 insertion and the induced nodulation defect led to the identification of three specific regions (designated I, II, III) which affected nodulation ability. Twenty-three Tn5 insertions into region I (ca. 3.5 kb) affected normal root hair curling ability and abolished infection thread formation. The resulting mutants were unable to nodulate all tested plant species. Tn5 insertions in regions II and III resulted in mutants which showed an exaggerated root hair curling (Hac⁺⁺) response on clover plants. Ten region II mutants which occurred over a 1.1 kb area showed a greatly reduced nodulation ability on clovers and produced aborted, truncated infection threads. Tn5 insertions into region III (ca. 1.5 kb) altered the outcome of crucial early plant recognition and infection steps by R. trifolii. Seven region III mutants displayed host-range properties which differed from the original parent strain. Region III mutants were able to induce marked root hair distortions, infection threads, and nodules on Pisum sativum including the recalcitrant Afghanistan variety. In addition region III mutants showed a poor nodulation ability on Trifolium repens even though the ability to induce infection threads was retained on this host. The altered host-range properties of region III mutants could only be revealed by mutation and the mutant phenotype was shown to be recessive.     

Multiple copies of functional, Tet(M)-encoding Tn916-like elements in a clinical Enterococcus faecium isolate

Tn916 and similar elements are very common in clinical enterococcal isolates, and are responsible for transmission of a variety of resistance determinants. It is commonly assumed that clinical strains carrying Tn916 have a single copy, although the actual number of copies in clinical isolates has never been systematically studied. We report a clinical isolate of Enterococcus faecium in which three distinct and excision-proficient copies of Tn916-like elements are present in the genome. All of the elements contain tet(M) genes, at least one of which confers resistance to tetracycline and minocycline. Two elements (Tn6085a, Tn6085b) are indistinguishable, containing an inserted 2758 bp Group II intron at the start of open reading frame Tn916ORF_06. The third (Tn6084) also contains the intron, but also has an ISEfa11 integrated upstream of tet(M). All three copies are able to excise from plasmid vectors when cloned in E. coli, and at least two of the elements can transfer to an E. faecium recipient strain. These data indicate that nearly identical Tn916-like elements encoding Tet(M)-mediated tetracycline/minocycline resistance can coexist in clinical E. faecium isolates.     

Transposon mutagenesis in Azospirillum brasilense: isolation of auxotrophic and Nif- mutants and molecular cloning of the mutagenized nifDNA

Summary We report the successful mutagenesis of Azospirillum brasilense 29710 Rif Sm with transposon Tn5. The narrow host-range plasmid pGS9 (p15A replicon), which possesses broad host-range N-type transfer genes, was used as the suicide vehicle to deliver Tn5 in Azospirillum. Out of 900 colonies tested, 0.8% proved to be auxotrophic. One mutant altered in indoleacetic acid (auxin) biosynthesis was isolated and, in addition, three mutants completely defective in nitrogen fixation (nif) were obtained. All the mutants tested contained a single copy of Tn5 integrated randomly in the genome. The Tn5-mutagenized EcoRI fragments were cloned from the three Nif^- mutants. Physical analysis of cloned DNA showed that Tn5 was present on a different EcoRI fragment in each case, ranging in size from 15–17 kb. The nitrogenase structural genes (nifHDK) in A. brasilense 29710 Rif Sm were localized on a 6.7 kb EcoRI fragment. We found that Tn5 is not inserted in the nifHDK genes in the Nif^- mutants reported here. Site-directed mutagenesis using the cloned, Tn5-containing DNA from mutant Nif27(pMS188), produced a large number of Nif^- transconjugants of the A. brasilense 29710 Rif wild-type strain, showing the linkage between Tn5 insertion and the Nif^- phenotype. This is the first time that transposon-mutagenized auxotrophic, Nif^- and other mutants have been available for genetic analysis in Azospirillum. This should greatly facilitate the cloning and mapping of genes involved in nitrogen fixation as well as in many other phenotypic characteristics of Azospirillum.