Genetic analysis of Tn7 transposition

Summary The purpose of this work was to localize the DNA regions necessary for the transposition of Tn7. Several deletions of Tn7 were constructed by the excision of DNA fragments between restriction sites. The ability of these deleted Tn7s to transpose onto the recipient plasmid RP4 was examined. All the deleted Tn7s isolated in this work had lost their transposing capability. The possibility of complementing them was studied using plasmids containing all or part of Tn7. Two deleted Tn7s could not be complemented by an entire Tn7 indicating that a DNA sequence greater than the 42 bp terminal sequence is needed for recognition of the transposon by a transposition function. Four other deleted Tn7s could be complemented by Tn7. One of these was studied intensively in complementation experiments using different parts of Tn7 to obtain transposition. The results obtained allow us to propose that all genes needed for transposition of Tn7 onto plasmids are contained in a DNA segment of between 6.0 and 7.4 kb. Furthermore, one essential function must be contained in a DNA fragment longer than 2.5 kb on the right-hand end of Tn7. The classification of Tn7 with regard to the other transposable elements is discussed.     

The use of selectable markers for the isolation of plant-DNA/T-DNA junction fragments in a cosmid vector

Summary DNA of the crown gall tumor line W38T37:: Tn7-1 was partially digested with Sau3A to an average molecular weight of 25 Md and ligated either directly or after size fractionation to BamHI cut cosmid pJC81 DNA. After in vitro packaging in phage particles and transduction to E. coli HB101, recombinants that expressed the Tn7 coded resistances to spectinomycin and trimethoprim were selected. The recombinant plasmids thus isolated contained part or the whole of Tn7 together with adjacent T-DNA. Four independent, large clones are described, three containing the left border of the T-DNA, one containing the right border and an intact copy of the Tn7 transposon. In this case all the Tn7 encoded genes were shown to have remained fully functional since the reisolated Tn7 was found to be capable of normal transposition in E. coli. The T-DNA in the W38T37::Tn7 tumor line is flanked both to the left and to the right by highly AT rich repetitive plant sequences. These results further demonstrate that foreign genes can be transferred, integrated and stably maintained in chromosomes of plant cells without undergoing any observable rearrangements. This method of cosmid cloning combined with direct selection for the desired recombinant colonies is of general application for the genomic cloning of transformed eukaryotic cells.     

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.     

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.     

Cloning of the lkyB (tolB) gene of Escherichia coli K12 and characterization of its product

Summary The lkyB gene of Escherichia coli K12 has been cloned from the Clarke and Carbon colony bank by selecting a ColE1 plasmid conferring cholic acid resistance to lkyB mutants. The lkyB gene was localized on hybrid plasmid pJC778 by analysis of mutated plasmids generated by Tn5 insertions. Restriction analysis and complementation studies indicated that plasmid pJC778 carried genes nadA, lkyB and sucA which mapped at min 16.5; the lkyB ⁺ allele was dominant over the lkyB207 mutant allele. Analysis of cell envelope proteins from strains carrying plasmids pJC778 (lkyB ⁺), pJC2578 or pJC2579 (lkyB::Tn5), as well as plasmid-coded proteins in a maxicell system, made it likely that the lkyB gene product was a membrane protein of molecular weight 42,000.     

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     

The transposon Tn1 as a probe for studying ColE1 structure and function.

Summary Insertion of the transposable genetic element Tn1 into different sites of plasmid ColE1 results in a number of mutant phenotypes. Whereas all plasmids examined were present in normal amount, all showed reduced immunity to killing by colicin E1. Of six insertions isolated after conjugation, five fail to produce colicin, are conjugally proficient (transmissible), and map within a 500 nucleotide region of the genome. The other is conjugally deficient, produces colicin normally and maps close to two others with a similar phenotype isolated after transformation. Of four others isolated after transformation, two have similar properties to the original five transmissible plasmids. The other two are nontransmissible and produce colicin. Non-transmissibility is correlated with reduced relaxation complex. Patterns of protein synthesis in minicels by ColE1 and ColE1:: Tn1 plasmids have been examined: all ColE1 plasmids containing Tn1 show an altered pattern of ColE1 protein synthesis in addition to three presumptive Tn1-specified proteins, one of which is shown to be -lactamase. ColE1:: Tn1 plasmids can be inserted into the conjugative plasmid R64drd11 to form a cointegrate in which ColE1 and Tn1 function can be expressed.     

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     

Host range, entry exclusion, and incompatibility of Pseudomonas aeruginosa FP plasmids

The transposons Tn501, Tn7, and Tn1 were used to mark 20 FP plasmids of Pseudomonas aeruginosa which have previously been characterized on the basis of their host chromosome mobilizing ability (Cma) and their contribution to error-prone DNA repair. These transpositional derivatives were used to study the host range, entry exclusion, and incompatibility systems of these plasmids. Many of these plasmids were transferable to Pseudomonas putida, Pseudomonas glycinea, and Pseudomonas maltophilia. Where tested, these plasmids were retransferable back to P. aeruginosa from P. putida and their passage through the latter had not altered Cma. Their transmissibility to other Pseudomonas species will enable their use as Cma plasmids in those bacteria. Most of the FP plasmids were also transferable to enteric bacteria such as the naturally restriction-deficient Escherichia coli C and a restriction-deficient mutant of Klebsiella pneumoniae. However, in these bacteria the plasmids were extremely unstable. The FP plasmids were found to belong to five entry exclusion systems and four incompatibility groups in P. aeruginosa.     

Identification of a globally distributed clinical streptomycin-resistance plasmid and other resistance determinants in a coastal bay of China

Aims: To study streptomycin‐resistant bacteria isolated from Jiaozhou Bay and their molecular determinants of resistance. Methods and Results: Twenty‐seven tetracycline‐resistant and 49 chloramphenicol‐resistant bacterial isolates from surface seawater of Jiaozhou Bay were selected for investigation. More than 88% of these isolates were resistant to streptomycin. Half of the streptomycin‐resistant bacteria harboured the strA–strB gene pair, and six isolates carried Tn5393‐like transposons by PCR detection. The p9123‐related plasmids containing the sul2–strA–strB gene cluster were characterized in two environmental Escherichia coli isolates. Transposon Tn5393 was first identified on a Klebsiella pneumoniae plasmid, which also carried Tn1721, estP and umu genes responsible for antimicrobial and insecticide resistance. Conclusions: Coresistance to streptomycin and tetracycline or chloramphenicol was found with high frequency. p9123‐related plasmid and Tn5393 transposon may contribute to the wide distribution and spread of the strA–strB gene pair in Jiaozhou Bay. The detection of streptomycin‐resistance plasmid pQ1‐1 from Jiaozhou Bay seawater bacteria and human bacterial pathogens from USA indicates its global dissemination and transmission, across different components of the microbiota on earth. Significance and Impact of the Study: Streptomycin resistance can be recognized as an important bioindicator of environmental quality, owing to its association with anthropogenic pollution and the multidrug‐resistant microbiota.     

Effect of the plasmid ColIb-P9 on cellular processes related to DNA repair

Summary The plasmid ColIb-P9 introduced into Escherichia coli K12 umuC mutant cells suppresses the deficiencies in mutagenesis and repair of mutants after UV-irradiation. These data suggest that ColIb-P9 encodes a product with a function similar to that of the chromosomal gene umuC. Tn5 insertion mutants of ColIb-P9 were isolated with an altered ability to restore UV-mutagenesis in the umuC mutant. The same plasmid mutations were shown to eliminate the effects of ColIb-P9 on UV-mutagenesis, survival after UV and mitomycin C treatment, reactivation of UV-irradiated in unirradiated cells, Weigle-reactivation, induction of colicin E1 synthesis. The ColIb-P9 genes responsible for the enhancement of UV-mutagenesis were cloned within a 14 Md SalI fragment. Their location was established by restriction analysis of the mutant plasmid ColIb 6-13::Tn5.While the action of the plasmids ColIb-P9 and pKM101 is similar, these plasmids were shown to have opposite effects on cell survival and colicin E1 synthesis after mitomycin C treatment. A study of the mutant plasmids ColIb::Tn5 and pGW12 (muc ^- mutant of pKM101) has shown the difference in the effects of ColIb-P9 and pKM101 to be associated with the plasmid genes responsible for the protective and mutagenesis-enhancing effects of these plasmids in UV-irradiated cells.Abbreviations MC mitomycin C - ICS induction of colicin synthesis     

A cluster of fourteen genes from enteropathogenic Escherichia coli is sufficient for the biogenesis of a type IV pilus

Enteropathogenic Escherichia coli (EPEC) adhere to epithelial cells in microcolonies, a pattern termed localized adherence (LA). LA is dependent upon the presence of 50–70MDa plasmids, termed EPEC adherence factor (EAF) plasmids. Expression of an EAF plasm id-encoded type IV fimbria, the bundle-forming pilus (BFP), is associated with the LA phenotype. TnphoA insertions in bfpA, the gene encoding the major structural subunit of the BFP, abolish LA. While bfpA::TnphoA mutants cannot be complemented for LA by plasmids carrying the bfpA gene alone in trans, this work shows that they can be complemented by plasmids carrying the bfpA gene, as well as approximately 10kb of downstream sequence, suggesting that such mutations have polar effects on downstream genes. The identification and characterization of a cluster of 13 genes immediately downstream of bfpA are described. The introduction into a laboratory Escherichia coli strain of a plasmid containing these 14 bfp gene cluster genes, along with pJPN14, a plasmid containing another fragment derived from the EAF plasmid, confers LA ability and BFP biogenesis. However, when a mutation is introduced into the last gene of the bfp cluster, neither LA nor BFP biogenesis is conferred. This work also provides evidence to show that the fragment cloned in pJPN14 encodes a factor(s) which results in increased levels of the pilin protein. Finally, it is shown that expression of the 14 genes in the bfp cluster from an IPTG-inducible promoter, in the absence of pJPN14, is sufficient to reconstitute BFP biogenesis in a laboratory E. cob strain, but is insufficient for LA. This is the first report demonstrating the reconstitution of a type IV pilus in a laboratory E. coli strain with a defined set of genes. The 8FP system should prove to be a useful model for studying the molecular mechanisms of type IV pilus biogenesis.     

IS<Emphasis Type="Italic">Ppy1</Emphasis>, a novel mobile element of the ancient <Emphasis Type="Italic">Psychrobacter maritimus</Emphasis> permafrost strain: Translocations in <Emphasis Type="Italic">Escherichia coli</Emphasis> K-12 cells and formation of composite transposons

It was shown that IS element ISPpy1 isolated earlier in the permafrost strain Psychrobacter maritimus MR29-12 has a high level of functional activity in cells of the heterologous host Escherichia coli K-12. ISPpy1 can be translocated in E. coli cells by itself and mobilize adjacent genes and can also form composite transposons flanked by two copies of this element. Apart from translocations between different plasmids, the composite ISPpy1-containing transposon Tn5080a is capable of translocation from the plasmid into the E. coli chromosome with high frequency and from the chromosome into the plasmid. Among products of Tn5080a transposition into plasmid R388, simple insertions were predominantly formed together with cointegrates. Upon mobilization of adjacent genes with the use of one ISPpy1 copy, only cointegrates arise.     

Analysis of the reduction in expression of tetracycline resistance determined by transposon Tn10 in the multicopy state

The tet genes of transposon Tn10 have been mapped in a 2,200 bp DNA sequence by analysing deletion and Tn5 insertion mutations. When the tet genes were present on multi-copy plasmids the level of resistance expressed was about ten-fold lower than that determined by a single copy of Tn10 in the E. coli chromosome. The 36K tet protein known to be encoded by R100 in E. coli minicells was not detected when they harboured a multicopy tet plasmid. However, normal high levels of resistance were expressed when the tet genes were recombined into the host chromosome as part of a lambda lysogen, showing that the multicopy effect was phenotypic. Most of the Tn5 insertions and deletions in tet which caused Tc^s mutations also prevented expression of high level Tc^r from a chromosomal Tn10 element present in the same cell. Only those insertions in the promoter-proximal 90–130 bp of a 1,275 bp HindII fragment known to carry the gene encoding the 36K tet protein did not reduce the single copy Tn10 resistance level.A gene fusion system that results in the constitutive synthesis of -galactosidase from a tet promoter has been used to assay tet repressor activity. The basal (uninduced) -galactosidase level in cells carrying multicopy tet plasmids was 10–20 fold lower than those carrying a single copy. The tet:: Tn5 mutants defective in the trans-dominant multicopy effect still made normal amounts of tet repressor showing that repressor overproduction was not responsible for this effect. In addition a repressor-defective constitutive mutant did not exhibit a higher resistance level when located on a multicopy plasmid vector. We postulate that a regulatory mechanism recognises the amino-terminus of the tet structural gene product when attempts are being made to overproduce the protein and prevents further translation.     

Generation of isogenic K54 capsule-deficient Escherichia coli strains through TnphoA-mediated gene disruption

Transposon muta genesis, using IS50^L::phoA(Tn-phoA), was performed in a K54/O4/H5 blood isolate of Escherichia coli (CP9), to generate a library of random mutants. Five hundred and twenty-six independent CP9 TnphoA mutants were isolated with active gene fusions to alkaline phosphatase. From this mutant library, eight capsule-deficient strains were detected and were found to have a single copy of TnphoA. Sixteen additional capsule deficient mutants with TnphoA inserts were subsequently obtained that did not possess active PhoA fusions. In conjunction with the initial eight capsule-deficient isolates we have defined genes on three different XbaI fragments as being involved in capsule production. Generalized transduction with the bacteriophage T4 established that these insertions were responsible for the loss of capsule and that they are linked. These capsule-deficient strains can be used to assess the pathogenic role of the K54 capsular polysaccharide.     

Heteromeric transposase elements: generators of genomic islands across diverse bacteria

Horizontally acquired genetic information in bacterial chromosomes accumulates in blocks termed genomic islands. Tn7‐like transposons form genomic islands at a programmed insertion site in bacterial chromosomes, attTn7. Transposition involves five transposon‐encoded genes (tnsABCDE) including an atypical heteromeric transposase. One transposase subunit, TnsB, is from the large family of bacterial transposases, the second, TnsA, is related to endonucleases. A regulator protein, TnsC, functions with different target site selecting proteins to recognize different targets. TnsD directs transposition into attTn7, while TnsE encourages horizontal transmission by targeting mobile plasmids. Recent work suggests that distantly related elements with heteromeric transposases exist with alternate targeting pathways that also facilitate the formation of genomic islands. Tn6230 and related elements can be found at a single position in a gene of unknown function (yhiN) in various bacteria as well as in mobile plasmids. Another group we term Tn6022‐like elements form pathogenicity islands in the Acinetobacter baumannii comM gene. We find that Tn6022‐like elements also appear to have an uncharacterized mechanism for provoking internal transposition and deletion events that serve as a conduit for evolving new elements. As a group, heteromeric transposase elements utilize diverse target site selection mechanisms adapted to the spread and rearrangement of genomic islands.     

Distinct Recent Lineages of the <Emphasis Type="Italic">strA</Emphasis>-<Emphasis Type="Italic">strB</Emphasis> Streptomycin-Resistance Genes in Clinical and Environmental Bacteria

We report the linkage of the strA-strB streptomycin-resistance genes with Class 1 integron sequences on pSTR1, a 75-kb multiple antibiotic-resistance plasmid from Shigella flexneri. strA-strB had previously been detected only within Tn5393, a Tn3-family transposon, and on small nonconjugative broad-host-range plasmids such as RSF1010. The geographic range of Tn5393 was also extended to Pseudomonas spp. isolated from apple trees in New Zealand and soil in the USA. Comparative sequence analyses indicated that strA-strB from Tn5393 and nonconjugative plasmids constitute distinct recent lineages with strA-strB from pSTR1 intermediate between the other two. The carriage of strA-strB within an integron, a transposon, and on broad-host-range plasmids has facilitated the world-wide dissemination of this determinant among at least 21 bacterial genera. Received: 8 August 2001 / Accepted: 26 November 2001     

Transposon Mutagenesis of Azospirillum brasilense and Azospirillum lipoferum: Physical Analysis of Tn5 and Tn5-Mob Insertion Mutants

Tn5-induced insertion mutants were generated in Azospirillum brasilense Sp7 and A. lipoferum SpBr17 by mating with Escherichia coli strains carrying suicide plasmid vectors. The sources of Tn5 were the suicide plasmids pGS9 and pSUP2021. Kanamycin-resistant Azospirillum colonies appeared from crosses with E. coli at maximum frequencies of 10⁻⁷ per recipient cell. Transposon Tn5 also conferred streptomycin resistance on Azospirillum colonies as was observed earlier for Rhizobium sp. Eight Tn5-induced Km^r Sm^rA. brasilense Sp7 mutants with reduced nitrogen-fixing capacity were isolated. The potential use of Tn5-Mob for labeling and mobilization of Azospirillum-indigenous plasmids was demonstrated by isolating Tn5-Mob insertions in the megaplasmids of A. brasilense Sp7.     

Precise excision of bacterial transposon Tn5 in yeast

Summary We have demonstrated that precise excision of bacterial transposon Tn5 can occur in the yeast, Saccharomyces cerevisiae. Tn5 insertions in the yeast gene LYS2 were generated by transposon mutagenesis made in Escherichia coli by means of a ::Tn5 vector. Nine insertions of Tn5 into the structural part of the yeast LYS2 gene situated in a shuttle epsiomal plasmid were selected. All the plasmids with a Tn5 insertion were used to transform yeast strains carrying a deletion of the entire LYS2 gene or a deletion of the part of LYS2 overlapping the point of insertion.All insertions inactivated the LYS2 gene and were able to revert with low (about 10^-8) frequencies to lysine prototrophy. Restriction analysis of revertant plasmids revealed them to be indistinguishable from the original plasmid without Tn5 insertion. DNA sequencing of the regions containing the points of insertions, made for two revertants, proved that Tn5 excision was completely precise.     

Optimized BlaM-transposon shuttle mutagenesis of Helicobacter pylori allows the identification of novel genetic loci involved in bacterial virulence

Helicobacter pylori is an important etiologic agent of gastroduodenal disease in humans. In this report, we describe a general genetic approach for the identification of genes encoding exported proteins in H. pylori. The novel TnMax9 mini-blaM transposon was used for insertion mutagenesis of a H. pylori gene library established in Escherichia coli. A total of 192 E. coli clones expressing active β-lactamase fusion proteins (BlaM⁺) were obtained, indicating that the corresponding target plasmids carry H. pylori genes encoding putative extracytoplasmic proteins. Natural transformation of H. pylori P1 or P12 using the 192 mutant plasmids resulted in 135 distinct H. pylori mutant strains (70%). Screening of the H. pylori collection of mutant strains allowed the identification of mutant strains impaired in motility, in natural transformation competence and in adherence to gastric epithelial cell lines. Motility mutants could be grouped into distinct classes: (i) mutant strains lacking the major flagellin subunit FlaA and intact flagella (class I); (ii) mutant strains with apparently normal flagella, but reduced motility (class II), and (iii) mutant strains with obviously normal flagella, but completely abolished motility (class III). Two independent mutations that exhibited defects in natural competence for genetic transformation mapped to different genetic loci. In addition, two independent mutant strains were isolated by their failure to bind to the human gastric carcinoma cell line Katoill. Both mutant strains carried a transposon in the same gene, 0.8 kb apart, and showed decreased autoagglutination when compared to the wild-type strain.