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.     

Transfer Region of a Bacteroides Conjugative Transposon Contains Regulatory as Well as Structural Genes

Conjugative transposons (CTns) are integrated elements that excise themselves from the chromosome to form a circular transfer intermediate that is transferred by conjugation to a recipient. In an earlier paper, the excision step was shown to be regulated by tetracycline and to be dependent on the regulatory gene, rteC. In this paper, we report that genes involved in conjugal transfer are also regulated by tetracycline but that regulation is more complex. Genes contained within a 20-kbp region that is sufficient for conjugal transfer were disrupted by single crossover integration events. Most of the disruptions abolished transfer of the CTn. None of them abolished excision. Antibodies to two of the proteins encoded in this region (TraG and TraN) were obtained and used to show that production of these proteins was dependent on tetracycline stimulation. Both TraG and TraN were membrane proteins. A surprising finding was that a disruption in the gene traQ increased transfer of CTnERL over 100-fold. Thus, TraQ may be a repressor protein that controls expression of transfer genes. If so, TraQ is not the only protein that controls expression of transfer genes because production of TraG and TraN in the traQ disruption mutant was still dependent on tetracycline stimulation.     

Analyses oftraA, int-Tn,andxis-TnMutations in the Conjugative Transposon Tn916inEnterococcus faecalis

The conjugative transposon Tn916moves intercellularly via an excision/insertion mechanism that involves products ofint-Tnandxis-Tn.Tn5-insertion mutations in these genes were found to be complemented in anEnterococcus faecalishost by specific coresident transposons harboring the corresponding wild-type allele. A determinant designatedtraA,partially overlapping and divergently transcribed fromxis-Tn,is thought to encode a key positively acting regulatory protein needed for expression of conjugation functions. This locus was also shown to express atrans-acting product.     

Analysis of the Complete Nucleotide Sequence of the Tetracycline-Resistance Transposon Tn10

An analysis of the complete nucleotide sequence of the composite tetracycline-resistance transposon Tn10 (9147 bp) from the Salmonella typhi conjugative plasmid R27 is presented. A comparison of the protein sequences from IS10-right and IS10-left transposases has identified four amino acid differences. These residues appear to play an important role in normal transposase function and may account for the differences in exhibited transposition activities. The tetracycline determinants encoded by this version of Tn10 share >99% identity with those of Tn10^R100, demonstrating the conservation that exists between these transposons. A previously uncharacterized 3000-bp region of Tn10 contains four putative open reading frames. One of these open reading frames shares 55% identity with the glutamate permease protein sequence from Haemophilus influenzae although it was unable to complement an Escherichia coli glutamate permease mutant, with which it shares 51% identity. The three remaining putative open reading frames are arranged as a discrete genetic unit adjacent to the glutamate permease homolog and are transcribed in the opposite direction. Two of these open reading frames are homologous with Bacillus subtilis proteins of unknown functions while the other has no homologs in the database. The presence of an aminoacyl-tRNA synthetase class II motif in one of these open reading frames in combination with the glutamate permease homolog allows us to postulate that this region of Tn10 could once have played a role in amino acid metabolism.     

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     

Behaviour of the transposons Tn5 and Tn7 in Xanthomonas campestris pv. campestris

Summary Xanthomonas campestris pv. campestris was tested for its ability to maintain various plasmids after they had been transferred by conjugation from Escherichia coli donors. Broad host-range plasmids belonging to incompatibility groups P and Q could be maintained but X. campestris was unable to support replication of narrow host-range ColE1, pACYC184 and pBR325 replicons. Delivery systems based on E. coli donors of suicide plasmids and on X. campestris Hfrs were used to introduce Tn7 and Tn5 into X. campestris. Tn7 insertions were recovered at high frequency while Tn5 transposed at low frequency. Three auxotrophic Tn5 insertions were isolated but transposition of Tn7 into the X. campestris genome did not generate any auxotrophs. DNA hybridization analysis showed that Tn7 had inserted into the same hot spot(s) in all cases tested.     

Analysis of the Requirement for a pUB110 mob Region during Tn916-Dependent Mobilization

Tn916-dependent mobilization of nonconjugative plasmids pUB110 and its derivative pUB110Deltam was compared. Deleting a 787-bp fragment from the pUB110 mob region created plasmid pUB110Deltam. Deletion of the mob region of pUB110 rendered the plasmid nontransferable by the conjugative plasmids of Bacillus thuringiensis subsp. israelensis. During matings between Bacillus subtilis (Tn916) and B. thuringiensis subsp. israelensis, however, Tn916-dependent mobilization of plasmids pUB110 and pUB110Deltam was observed at a frequency of approximately 2 x 10(-6) transconjugants per donor. The results show that Tn916-mediated conjugal transfer of plasmids is a mob-independent event. Jaworski and Clewell (J. Bacteriol 177; 6644-6651) recently demonstrated the presence of an IncP-like nicking site in the oriT of Tn916. These data suggest that a IncP-like nickling site is essential for Tn916-mediated plasmid transfer.     

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.     

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.     

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.     

DNA binding domains in Tn3 transposase

Summary Various segments of Tn3 transposase were fused individually to -galactosidase, and the resulting fusion proteins were examined for their DNA binding ability by a nitrocellulose filter binding assay. Analyses of a series of the fusion proteins revealed that the N-terminal segment of the transposase (amino acid positions 1–242; the transposase gene encodes 1004 residues in all) had specific DNA binding ability for the 38 bp terminal inverted repeat (IR) sequence, and the central segment (amino acid positions 243–632) had non-specific DNA binding ability. Further analyses of each of the two regions revealed that the N-terminal segment could be divided into at least two subsegments (amino acid positions 1–86 and 87–242), neither of which had specific DNA binding ability, but which both possessed nonspecific DNA binding ability. The central segment included two subsegments (amino acid positions 243–289 and 439–505) with non-specific DNA binding ability. These results and other observations suggest that Tn3 transposase has several domains including those responsible for non-specific DNA binding, and a combination of two or more domains gives rise to specific DNA binding activity. The C-terminal segment of the transposase (amino acid positions 633-1004), which is very well conserved among transposases encoded by Tn3 family transposons, had no DNA binding ability. This segment may represent the main part of the catalytic domain responsible for the initiation step of transposition.     

Mapping of chromosomal loci associated with lipopolysaccharide synthesis and serotype specificity in Vibrio cholerae 01 by transposon mutagenesis using Tn5 and Tn2680

Summary Vibrio cholerae strains of the 01 serotype have been classified into three subclasses, Ogawa, Inaba and Hikojima, which are associated with the O-antigen of the lipopolysaccharide (LPS). The DNA encoding the biosynthesis of the O-antigen, the rfb locus, has been cloned and analysed (Manning et al. 1986; Ward et al. 1987). Transposon mutagenesis of the Inaba and Ogawa strains of V. cholerae, using Tn5 or Tn2680 allowed the isolation of a series of independent mutants in each of these serotypes. Some of the insertions were mapped to the rfb region by Southern hybridization using the cloned rfb DNA as a probe, confirming this location to be responsible for both O-antigen production and serotype specificity. The other insertions allowed a second region to be identified which is involved in V. cholerae LPS biosynthesis.     

Inhibition of Tn554 transposition: Deletion analysis

Tn554, a transposon in Staphylococcus aureus that specifies resistance to erythromycin and spectinomycin, exhibits a high preference for a single chromosomal insertion site. If this site is already occupied by a copy of Tn554, the transposition of a second element is inhibited 100- to 1000-fold. This report defines the locus of the inhibitory activity and presents both a functional and a restriction map of Tn554. Fragments containing parts of Tn554 were cloned on an autonomously replicating plasmid. Those clones containing the "left" end of Tn554 strongly inhibited the transposition of an incoming, intact copy of Tn554. Analysis of deleted derivatives of these clones defined a locus tnpI, which is both necessary and sufficient for transpositional inhibition. This locus consists of the terminal 89 bp of the "left" end of Tn554. It is suggested that this terminal sequence acts to titrate a factor required for transposition.     

Construction of a Tn5 derivative encoding bioluminescence and its introduction in Pseudomonas, Agrobacterium and Rhizobium

Summary A simple method based upon the use of a Tn5 derivative, Tn5-Lux, has been devised for the introduction and stable expression of the character of bioluminescence in a variety of gram-negative bacteria. In Tn5-Lux, the luxAB genes of Vibrio harveyi encoding luciferase are inserted on a SalI-BglII fragment between the kanamycin resistance (Km^r) gene and the right insertion sequence. The transposon derivative was placed on a transposition suicide vehicle by in situ recombination with the Tn5 suicide vector pGS9, to yield pDB30. Mating between Escherichia coli WA803 (pDB30) and a strain from our laboratory, Pseudomonas sp. RB100C, gave a Km^r transfer frequency of 10^-6 per recipient, a value 10 times lower than that obtained with the original suicide vehicle pGS9. Tn5-Lux was also introduced by insertion mutagenesis in other strains of gram-negative soil bacteria. The bioluminescence marker was expressed in the presence of n-decanal, and was monitored as chemiluminescence in a liquid scintillation counter. The recorded light intensities were fairly comparable among the strains, and ranged between 0.2 to 1.8x10⁶ cpm for a cell density of 10³ colony forming units/ml. Nodules initiated by bioluminescent strains of Rhizobium leguminosarum on two different hosts were compared for intensity of the bioluminescence they produced.     

Replicon fusion mediated by a single-ended derivative of transposon Tn1721

Summary Tn17221K, a derivative of transposon Tn1721 lacking one terminal inverted repeat (IR) and conferring kanamycin resistance, promotes transposition of the resistance marker to a target replicon at about 100-fold lower frequency than the wild-type element. A study involving restriction analysis of 16 independent Tn17221K-mediated events led to the following results: (i) Tn17221K mediates fusions of the donor (pRU506) and target (RSF1010) replicons; the fused entities are non-permuted. (ii) Tn17221K promotes insertions of donor DNA at many different sites in the target replicon. (iii) The analyzed fusion plasmids contain the entire target and various lengths of donor DNA. Eleven products contain the entire donor plasmid plus a duplication of the IR (class A), whereas five products contain only portions adjacent to the single IR (class B). (iv) In each case the two replicons are joined at (or very close to) the single IR. The second junction is located shortly beyond the duplicated IR in class A and at different sites within the donor plasmid in class B. These results are interpreted in terms of asymmetric replicative transposition.     

A Conjugative Transfer System for the Rumen Bacterium, Butyrivibrio fibrisolvens, Based on Tn916-Mediated Transfer of the Staphylococcus aureus Plasmid pUB110

A limitation of genetic studies of the rumen bacterium, Butyrivibrio fibrisolvens, has been the availability of suitable vectors and transfer systems. Using the conjugative tetracycline resistant transposon, Tn916, the Staphylococcus aureus plasmid, pUB110, and the pUB110-based shuttle vector, pUBLRS, a conjugative transfer system was developed for B. fibrisolvens. B. fibrisolvens donor strains H17c2 and H17c12, containing Tn916 and pUB110 or pUBLRS, respectively, were used in mating experiments with selected B. fibrisolvens strains. Kanamycin resistant transconjugants, containing pUB110, of strains 193, 194, and 195 were detected at a combined average frequency of 7.78 × 10^-7 per donor and 1.11 × 10^-5 per recipient. Transconjugants of strains 193 and 194, containing pUBLRS, were detected at an average frequency of 1.22 × 10^-6 per donor and 4.70 × 10^-8 per recipient. Southern hybridization analysis confirmed the presence of pUB110 and pUBLRS in transconjugants. Results indicated that Tn916 was necessary for mobilization of pUB110 as transconjugants were not detected when the transposon was absent from the donor strains. The ability to mobilize pUB110 and pUBLRS between B. fibrisolvens strains provides a conjugative transfer system that circumvents problems encountered with electroporation.     

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.     

The Linear Plasmid SCP1 of Streptomyces coelicolor A3(2) Possesses a Centrally Located Replication Origin and Shows Significant Homology to the Transposon Tn4811

The linear plasmid SCP1 of Streptomyces coelicolor A3(2) is one of the genetically more studied linear streptomycete replicons. Although the genetics of SCP1 and its interaction with the host chromosome have been analyzed for nearly three decades no information exists on its replication. With the help of an ordered cosmid contig for the complete 360-kb element, we have localized a 5439-bp fragment from the central region that confers autonomous replication in Streptomyces lividans. The minimal origin contains two overlapping ORFs which are separated from an AT-rich region which might correspond to the replication start point. ORF1 revealed intensive similarity to a class of DNA-primase/helicases of actinophages and archael plasmids. In addition, we have identified a region in both terminal inverted repeats of SCP1 that shows significant homology to the transposable element Tn4811 located near the ends of the S. lividans 66 chromosome.