Occurrence of a copia-like transposable element in one of the introns of the potato starch phosphorylase gene

Summary A 37.5 kb region encompassing a set of the naphthalene degrading genes on the Pseudomonas plasmid NAH7 was found to be transposable only in the presence of the transposase encoded by the Tn1721 subgroup of the class II transposons. This newly identified mobile element, designated Tn4655, contained short (38 bp) terminal inverted repeats which shared extensive sequence homology with those of members of the Tn1721 subgroup. Tn4655 transposed by a two-step process involving formation of the cointegrate followed by its subsequent resolution. In contrast to the defect in the trans-acting factor for the first step, a functional system for the latter step was encoded within a 2.4 kb region in Tn4655. Analysis of deletion and insertion mutants demonstrated that the 2.4 kb region contained the cis-acting (res) site and the gene for a trans-acting factor (resolvase); complementation analysis indicated that Tn4655 resolvase function was not interchangeable with those of other well-studied class 11 transposons, including the Tn1721 subgroup. Tn4655 had no DNA sequences that were hybridizable with the transposase or resolvase genes of the Tn1721 subgroup.Abbreviations Ap ampicillin - Cb carbenicillin - Cm chloramphenicol - Km kanamycin - Sm streptomycin - Tc tetracycline - Tp trimethoprim     

Transposon Tn21 encodes a RecA-independent site-specific integration system

Summary The IncW plasmid R388 and the DNA region of Tn21 containing the Sm^r and the Su^r genes are capable of RecA-independent recombination. This recombination occurs at a relatively high frequency (up to 10^-4 recombinants per recipient molecule) and results in integration of the two plasmids. No detectable repeats are formed in the process. The crossover points have been confined to a 0.4-kb homologous segment in both plasmids which contains a 59-bp DNA sequence presumably involved in the acquisition of new genes by Tn21 and its relatives (Cameron et al. 1986). It is likely that the recombination occurs precisely at this point. At least one trans-acting function (an integrase) is required for the site-specific recombination. It has been localized to a 1456-bp BstEII-BamHI fragment of Tn21 and can efficiently complement the integration of plasmids containing the integration site.     

Characterization of Tn10d-Cam: a transposition-defective Tn10 specifying chloramphenicol resistance

Summary We have constructed a small, transposition-defective derivative of the transposon Tn10 that carries the chloramphenicol acetyltransferase gene of pACYC184. This new genetic element, Tn10d-Cam, transposes when Tn10 transposase is provided from a multi-copy plasmid. Transposon insertion mutagenesis of Salmonella typhimurium was performed by using a strain carrying a Tn10d-Cam insertion in an Escherichia coli F' episome as the donor in transductional crosses into recipients that carried a plasmid expressing Tn10 transposase. Tn10d-Cam insertion mutations were also generated by complementation in cis of Tn10d-Cam by a cotransducible Tn10 element that overproduces transposase. Here, transposase was provided only transiently, and the Tn10d-Cam insertion mutations were recovered in a transposase-free strain. Cis complementation was used for mutagenesis of a plasmid target. The site specificity of insertion and the effect of insertions on expression of a downstream gene were investigated, using Tn10d-Cam insertions in a plasmid carrying a segment of the histidine operon.     

Construction of a transposon containing a gene for polygalacturonate trans-eliminase from Klebsiella oxytoca

A DNA fragment containing a Klebsiella oxytoca gene for polygalacturonate trans-eliminase was cloned into the kanamycin resistance transposon Tn5. This new transposon, designated Tn5-Pga ⁺, had a transposition frequency of 1×10^-6. The broad host range plasmid pR751::Tn5-Pga ⁺ was conjugally transferred to a variety of genetic backgrounds. The ability to degrade polygalacturonate was expressed in Aeromonas hydrophila, Alcaligenes eutrophus, Azotomonas insolita, Escherichia coli, Pseudomonas putida and Rhodopseudomonas sphaeroides, but not in Zymomonas mobilis.Abbreviations PGA polygalacturonate - UGA unsaturated galacturonic acid - PATE polygalacturonate trans-eliminase - PG polygalacturonase - CVP crystal-violet pectate     

A new example of physical linkage between Tn1 and Tn21: the antibiotic multiple-resistance region of plasmid pCFF04 encoding extended-spectrum beta-lactamase TEM-3.

Summary The genetic environment of plasmid-borne bla _TEM mutant genes, encoding nine distinct TEM-type extended-spectrum -lactamases, was studied in transconjugants from clinical isolates of enterobacteria. Colony hybridization with probes specific for tnpA and tnpR of Tn3, tnpA and tnpI of Tn21, aacA4, and IS15, and restriction endonuclease analysis of plasmid DNA indicated that the structural genes for the enzymes were always associated with intact or deleted variants of the Tn3 family. Four of the nine bla _TEM variants, which account for 62% of 222 isolates in a molecular epidemiological study, were associated with replicons indistinguishable from the epidemic Inc7-M plasmid pCFF04 that carries the blaTEM-3 gene. This suggests that mutant genes were selected from the same prototype plasmid carrying penicillinase genes bla _TEM-1 or _–2. A 6.6 kb DNA fragment of pCFF04 containing bla _TEM-3 was characterized by amplification mapping and sequencing. The results obtained indicated that bla _TEM-3 was present on a copy of Tn1 interrupted at the start codon of the transposase by a DNA sequence reminiscent of the inverted repeats of class II transposons. This partial Tn1 copy was, in turn, inserted into the transposase gene of a Tn21-like transposon containing an integron expressing an aacA4 gene. The presence of an integron can account for the various assortments of aminoglycoside resistance genes found associated with bla _TEM-3.     

Site-specific integration of genes into hot spots for recombination flanking aadA in Tn21 transposons.

Summary Tn21-related transposons are widespread among bacteria and carry various resistance determinants at preferential sites, hs1 and hs2. In an in vivo integrative recombination assay it was demonstrated that these hot spots direct the integration of aminoglycoside resistance genes like aadB from Klebsiella pneumoniae and aacAI from Serratia marcescens, in a recA ^– background. The maximum required recognition sequence which must be present in both the donor and recipient plasmids is 5 CTAAAACAAAGTTA 3 (hs2). The double-site-specific recombination occurred with a frequency of 10^–5–10^–6. The resulting structures include not only replicon fusion products but also more complex structures carrying two copies of the donor plasmid or simply the donor gene flanked by hs elements. hs1 and hs2 are thought to act as recognition sites for a trans-acting site-specific recombinase. By the use of Tn21 deletion derivatives, it has been shown that the recombinase is not encoded by Tn21. This new integrative recombination system is involved in the acquisition of new genes by Tn21-related transposons and their spread among bacterial populations.     

Characterization of the transposon carrying the STII gene of enterotoxigenic Escherichia coli

Summary The Escherichia coli enterotoxin STII gene is carried by Tn4521. The terminal repeats of Tn4521 are composed of IS2 sequences; however, neither repeat is a complete IS2. In order to determine how this seemingly defective transposon could transpose, mutations were generated within Tn4521 to determine the regions essential for transposition. The left terminal repeat region was found to be non-essential, but the right terminal repeat area was demonstrated to be crucial for transposition. Within the right terminal repeat area is an open reading frame (ORF), capable of encoding a 159 amino acid protein, which was shown by frameshift mutation analysis to be required for transposition. This protein may be the transposase of Tn4521. A pair of 11 bp repeat sequences flanking the ORF was also found to be important. The right 11 bp repeat is part of the left IS2 terminal sequence, and the left 11 bp repeat is located about 300 bp upstream from the right IS2 terminal sequence located within the right terminal repeat region. The results of this study suggest that Tn4521 is a functional transposon and that the sequence including this pair of 11 bp sequences plus the intervening sequence is a transposable element which may be responsible for Tn4521 transposition.     

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.     

Conjugal transfer of enterococcal transposons in Bacillus megaterium

The conjugative enterococcal transposons Tn916 and Tn919 were introduced into Bacillus megaterium by a filtermating technique. The transfer frequencies obtained ranged from 1.3×10^-6 to 6.6×10^-7. The transposons integrated stably into the B. megaterium chromosome. Tn916 could generate auxotrophs and was transferred from B. megaterium Tn916 transconjugants to other species.     

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.     

In vivo Tn<Emphasis Type="Italic">5</Emphasis>-based transposon mutagenesis of Streptomycetes

This paper reports the in vivo expression of the synthetic transposase gene tnp(a) from a hyperactive Tn5 tnp gene mutant in Streptomyces coelicolor. Using the synthetic tnp(a) gene adapted for Streptomyces codon usage, we showed random insertion of the transposon into the Streptomycetes genome. The insertion frequency for the hyperactive Tn5 derivative is 98% of transformed S. coelicolor cells. The random transposition has been confirmed by the recovery of ~1.1% of auxotrophs. The Tn5 insertions are stably inherited in the absence of apramycin selection. The transposon contains an apramycin resistance selection marker and an R6Kγ origin of replication for transposon rescue. We identified the transposon insertion loci by random sequencing of 14 rescue plasmids. The majority of insertions (12 of 14) were mapped to putative open-reading frames on the S. coelicolor chromosome. These included two new regulatory genes affecting S. coelicolor growth and actinorhodin biosynthesis.     

Construction of a Tra? deletion mutant of pAgK84 to safeguard the biological control of crown gall

Summary Agrobacterium radiobacter strain K84 is used commercially for the biological control of crown gall. It contains the conjugative plasmid pAgK84, which encodes the synthesis of agrocin 84, an antibiotic that inhibits many pathogenic agrobacteria. A breakdown of control is threatened by the transfer of pAgK84 to pathogens, which then become resistant to agrocin 84. A mutant of pAgK84 with a 5.9-kb deletion overlapping the transfer (Tra) region was constructed using recombinant DNA techniques. The BamHI fragment B1 which covers most of the Tra region was cloned in pBR325 and its internal EcoRI fragments D1 and H, which overlap the Tra region, were removed, leaving 3.7 kb and 0.5 kb of pAgK84 on either side of the deletion. The latter was increased to 3.3 kb by adding EcoRI fragment D2 from a BamHI fragment C clone. The modified pBR325 clone was mobilized into Agrobacterium strain NT1 harbouring pAgK84 with a Tn5 insertion just outside the Tra region but covered by the deletion. A Tra⁺ cointegrate was formed between the Tn5-insertion derivative and the pBR325-based deletion construct by homologous recombination. The cointegrate was transferred by conjugation to a derivative of strain K84 lacking pAgK84, in which a second recombination event generated a stable deletion-mutant by deletion-marker exchange. The resultant new strain of A. radiobacter, designated K1026, shows normal agrocin 84 production. Mating experiments show that the mutant plasmid, designated pAgK1026, is incapable of conjugal transfer at a detectable frequency.     

Identification of Tn4430, a transposon of Bacillus thuringiensis functional in Escherichia coli

Summary The mobile genetic element Tn4430, originating from the gram-positive bacterium, Bacillus thuringiensis, and previously described as the Th-sequence, is the first transposon isolated from the genus Bacillus. In the present work a gene (APH-III) conferring resistance to kanamycin was inserted into this 4.2 kb transposon. Transposition experiments showed that Tn4430APH-III could transpose in the gram-negative host Escherichia coli when its insertion functions were supplied by an intact copy of Tn4430. By transposing Tn4430APH-III directly onto pBR322, it was possible to determine the nucleotide sequence of the terminal inverted repeats of Tn4430 and of the target DNA site. Identical 38 bp in inverted orientation are situated at each end of the transposon and there is a direct duplication of 5 bp at the insertion site. Thus, it is clear that Tn4430 is closely related to the transposons belonging to the Tn3 family (class II elements).     

IS21 insertion in the trfA replication control gene of chromosomally integrated plasmid RP1: a property of stable Pseudomonas aeruginosa Hfr strains

Summary Broad host range IncP-1 plasmids are able to integrate into the chromosome of gram-negative bacteria. Strains carrying an integrated plasmid can be obtained when the markers of a temperature-sensitive (ts) plasmid derivative are selected at non-permissive temperature; in this way Hfr (high frequency) donor strains can be formed. The integrated plasmids, however, tend to be unstable in the absence of continuous selective pressure. In order to obtain stable Hfr donor strains of Pseudomonas aeruginosa PAO, we constructed a derivative of an RP1 (ts) plasmid, pME134, which was defective in the resolvase gene (tnpR) of transposon Tn801. Chromosomal integration of pME134 was selected in a recombination-deficient (rec-102) PAO strain at 43°C. Plasmid integration occurred at different sites resulting in a useful set of Hfr strains that transferred chromosomal markers unidirectionally. The tnpR and rec-102 mutations prevented plasmid excision from the chromosome. In several (but not all) Hfr strains that grew well and retained the integrated plasmid at temperatures below 43°C, the insertion element IS21 of RP1 was found to be inserted into the trfA locus (specifying an essential trans-acting replication funtion) of the integrated plasmid. One such Hfr strain was rendered rec ⁺; from its chromosome the pME134::IS21 plasmid (=pME14) was excised and transferred by conjugation to Escherichia coli where pME14 could replicate autonomously only when a helper plasmid provided the trfA ⁺ function in trans. Thus, it appears that trfA inactivation favours the stability of chromosomally integrated RP1 in P. aeruginosa.     

Genetic manipulations in Rhizobium meliloti utilizing two new transposon Tn5 derivatives

Summary Two derivatives of the prokaryotic transposon Tn5 were constructed in vitro. In Tn5-233, the central area of Tn5, which carries resistance to kanamycin/neomycin, bleomycin and streptomycin, is replaced by a fragment carrying resistance to the aminocyclitol antibiotics gentamycin/kanamycin and streptomycin/spectinomycin. In Tn5-235, the Escherichia coli -galactosidase gene is inserted within the streptomycin resistance gene of Tn5, and constitutively expressed from a Tn5 promoter. Both constructs transpose with about the same frequency as Tn5 in Escherichia coli and Rhizobium meliloti. When a Tn5-derivative is introduced into an R. meliloti strain which already contains a different Tn5-derivative, in situ transposon replacement is obtained at high frequency, presumably by a pair of crossovers between the IS50 sequences at the ends of the incoming and resident transposons. In this way we converted a previously isolated recA::Tn5 mutant into the corresponding recA::Tn5-233 strain, which can now be used as a genetic background in the study of complementation of other Tn5-induced mutations. We also replaced the drug markers of several Tn5-induced exo mutants, which we were then able to map relative to each other by transduction with phage M12. In a strain carrying Tn5-235 located near Tn5-233, we were able to isolate deletions of the intervening markers, presumably resulting from general recombination between the two transposons, by screening for loss of the Lac⁺ phenotype. Unlike Tn5 itself, resident Tn5-233 does not appear to suppress transposition of another incoming Tn5-derivative.Abbreviations bp base pairs - Nm neomycin - Km kanamycin - Sm streptomycin - Sp spectinomycin - Gm gentamycin - Tc tetracycline - Tp trimethoprim - Ot oxytetracycline - Rf rifampicin - Xgal 5-bromo-4-chloro-3-indolyl--d-galactoside     

Cointegration and resolution mediated by IS101 present in plasmid pSC101

Summary A certain class of cointegrate plasmids was found to occur between a pSC101 derivative and a second plasmid pBV320 in E. coli F^- cells. Cleavage analysis and DNA sequencing showed that the cointegrate plasmid contained direct repeats of an insertion sequence IS101 at the recombination junctions, indicating that formation of cointegrates was mediated by IS101, which is a natural constitutent of pSC101. These cointegrates were formed only in cells which contained the transposon gamma-delta, suggesting that the gamma-delta sequence, which provides transposase, is responsible for cointegration. Whenever the cointegrate plasmids were present in cells containing gamma-delta or its related transposon Tn3, the cointegrates were dissolved to give pBV320::IS101 due to recombination at duplicated IS101 sequences in the cointegrates, suggesting that both gamma-delta and Tn3, which provide a resolvase, are responsible for the resolution of the cointegrates. Comparison between the nucleotide sequence of IS101 and those of gamma-delta and Tn3 shows a high degree of homology in the regions that have been shown to be the binding sites of resolvases, as well as in the terminal inverted repeats. However, there is no homology between IS101 and the other element, gamma-delta or Tn3, in the internal resolution site, at which the resolution event may occur.Abbreviations Tc tetracycline - Cm chloramphenicol - Ap ampicillin - bp base pairs - kb kilobase pairs     

Transposition and transduction of plasmid DNA inStreptomyces spp.

Summary To expand the application of molecular genetics to many different streptomycete species, we have been developing two potentially widely applicable methodologies: transposon mutagenesis and plasmid transduction. We constructed three transposons from theStreptomyces lividans insertion sequence IS493. Tn5096 and Tn5097 contain an apramycin resistance gene inserted in different orientations between the two open reading frames of IS493. These transposons transpose from different plasmids into many different sites in theStreptomyces griseofuscus chromosome and into its resident linear plasmids. Tn5099 contains a promoterlessxylE gene and a hygromycin-resistance gene inserted in IS493 close to one end. Tn5099 transposes inS. griseofuscus giving operon fusions in some cases that drive expression of thexylE gene product, catechol deoxygenase, giving yellow colonies in the presence of catechol. We have also developed plasmid vectors that can be transduced into many streptomycete species by bacteriophage FP43. We describe the characterization of FP43 and mapping of several bacteriophage functions. The region of cloned FP43 DNA essential for plasmid transduction includes the origin for headful packaging.     

In vivo testing of a tobacco plastid DNA segment for guide RNA function in psbL editing

A C-to-U RNA editing event creates a functional initiation codon for translation of the psbL mRNA in tobacco plastids. Small trans-acting guide RNAs (gRNAs) have been shown to be involved in editing site selection in kinetoplastid mitochondria. A computer search of the tobacco plastid genome (ptDNA) identified such a putative gRNA, a 14-nucleotide sequence motif that is complementary to the psbL mRNA, including the A nucleotide required to direct the C-to-U change. The critical A nucleotide of the putative gRNA gene was changed to G by plastid transformation. We report here that the introduced mutation did not abolish psbL editing. Since no other region of the plastid genome contains significant complementarity to the psbL editing site we suggest that, if gRNAs serve as trans-acting factors for plastid psbL mRNA editing, they either have only a limited complementarity to the editing site, or are encoded in the nuclear genome.     

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.