Multiple copies of IS256 in staphylococci.

EcoRI-digested cellular DNAs of 150 staphylococcal clinical isolates were probed with a plasmid containing a DNA piece from within the open reading frame of IS256. Most of the Gmr staphylococcal isolates tested contained more copies of IS256 than those associated with Tn4001 carried by these isolates. Three distinct copies of IS256 together with their flanking DNA were isolated by cloning from an EcoRI digest of the cellular DNA of the Gmr isolate, BM3121. These three copies of IS256 were shown to be intact. The results from DNA sequencing revealed that one of the three copies is flanked by 8-bp direct repeats, and it is suggested that this may be the result of insertion of the IS256 at this site by autonomous movement of the IS element. The insert DNA of all three clones hybridized to the cellular DNA prepared from a Staphylococcus aureus strain that carries neither IS256 nor the aacA-aphD gene. Two of the clones hybridized to several EcoRI fragments of the cellular DNA of this strain, indicating that in these cases IS256 is flanked by DNA present as several copies on the chromosome.     

Construction of mini-Tn4001tet and its use in Mycoplasma gallisepticum

The Mollicutes are a group of cell-wall-less bacteria and are important plant and animal pathogens. Progress toward analyzing their pathogenic mechanisms has been hampered by the few available genetic tools. Of the two transposons shown to function in mycoplasmas, only Tn4001 is readily amenable to modification and development. One disadvantage of using Tn4001 in mycoplasmas has been independent insertion of the insertion sequence, IS256, probably as a result of inadequate control of the transposase expression in mycoplasmas. In this study, we describe the construction of a mini-Tn4001 containing the tetM antibiotic resistance gene from Tn916. The transposase gene was placed outside the inverted repeats to lower the frequency of independent transposition events. Transposition of mini-Tn4001tet in Mycoplasma gallisepticum occurred at a frequency of 1-8 x 10(-6), a frequency similar to that of the parent transposon. Insertions of mini-Tn4001tet were random and only single insertions were observed. Several unique restriction sites between the inverted repeat sequences provide for further development of mini-Tn4001.     

Diversity of Tn4001 Transposition Products: the Flanking IS256 Elements Can Form Tandem Dimers and IS Circles

We show that both flanking IS256 elements carried by transposon Tn4001 are capable of generating head-to-tail tandem copies and free circular forms, implying that both are active. Our results suggest that the tandem structures arise from dimeric copies of the donor or vector plasmid present in the population by a mechanism in which an IS256 belonging to one Tn4001 copy attacks an IS256 end carried by the second Tn4001 copy. The resulting structures carry abutted left (inverted left repeat [IRL]) and right (inverted right repeat [IRR]) IS256 ends. Examination of the junction sequence suggested that it may form a relatively good promoter capable of driving transposase synthesis in Escherichia coli. This behavior resembles that of an increasing number of bacterial insertion sequences which generate integrative junctions as part of the transposition cycle. Sequence analysis of the IRL-IRR junctions demonstrated that attack of one end by the other is largely oriented (IRL attacks IRR). Our experiments also defined the functional tips of IS256 as the tips predicted from sequence alignments, confirming that the terminal 4 bp at each end are indeed different. The appearance of these multiple plasmid and transposon forms indicates that care should be exercised when Tn4001 is used in transposition mutagenesis. This is especially true when it is used with naturally transformable hosts, such as Streptococcus pneumoniae, in which reconstitution of the donor plasmid may select for higher-order multimers.     

Detection and characterization of IS256, an insertion sequence in Staphylococcus aureus

Resistance to the aminoglycosides gentamicin (Gmr), tobramycin (Tmr) and kanamycin (Kmr) in strains of Staphylococcus aureus isolated in Australia is mediated by the transposon Tn4001. The 1.35 kb inverted repeat of this transposon exhibits many of the characteristics of an insertion sequence and has consequently been designated IS256. Tandem duplication of IS256 contiguous with Tn4001 results in an increase in the level of GmrTmrKmr, thereby implying that the element possesses strong promoter sequences. Both contiguous and independent insertions of IS256 into the staphylococcal chromosome have been observed, the latter suggesting that the element may play a role in molecular rearrangements of the genome.     

The IS1111 family members IS4321 and IS5075 have subterminal inverted repeats and target the terminal inverted repeats of Tn21 family transposons

IS5075 and IS4321 are closely related (93.1% identical) members of the IS1111 family that target a specific position in the 38-bp terminal inverted repeats of Tn21 family transposons and that are inserted in only one orientation. They are 1,327 bp long and have identical ends consisting of short inverted repeats of 12 bp with an additional 7 bp (TAATGAG) or 6 bp (AATGAG) to the left of the left inverted repeats and 3 bp (AGA) or 4 bp (AGAT) to the right of the right inverted repeat. Circular forms of IS5075 and IS4321 in which the inverted repeats are separated by abutting terminal sequences (AGATAATGAG) were detected. A similar circular product was found for the related ISPa11. Transposition of IS4321 into the 38-bp target site was detected, but a flanking duplication was not generated. The precisely reconstituted target site was also identified. Over 50 members of the IS1111 family were identified. They encode related transposases, have related inverted repeats, and include related bases that lie outside these inverted repeats. In some, the flanking bases number 5 or 6 on the left and 4 or 3 on the right. Specific target sites were found for several of these insertion sequence (IS) elements. IS1111 family members therefore differ from the majority of IS elements, which are characterized by terminal inverted repeats and a target site duplication, and from members of the related IS110 family, which do not have obvious inverted repeats near their termini.     

Trimethoprim resistance transposon Tn4003 from Staphylococcus aureus encodes genes for a dihydrofolate reductase and thymidylate synthetase flanked by three copies of IS257

Trimethoprim resistance mediated by the Staphylococcus aureus multi-resistance plasmid pSK1 is encoded by a structure with characteristics of a composite transposon which we have designated Tn4003. Nucleotide sequence analysis of Tn4003 revealed it to be 4717 bp in length and to contain three copies of the insertion element IS257 (789-790 bp), the outside two of which are flanked by directly repeated 8-bp target sequences. IS257 has imperfect terminal inverted repeats of 27-28 bp and encodes for a putative transposase with two potential alpha-helix-turn-alpha-helix DNA recognition motifs. IS257 shares sequence similarities with members of the IS15 family of insertion sequences from Gram-negative bacteria and with ISS1 from Streptococcus lactis. The central region of the transposon contains the dfrA gene that specifies the S1 dihydrofolate reductase (DHFR) responsible for trimethoprim resistance. The S1 enzyme shows sequence homology with type I and V trimethoprim-resistant DHFRs from Gram-negative bacteria and with chromosomally encoded DHFRs from Gram-positive and Gram-negative bacteria. 5' to dfrA is a thymidylate synthetase gene, designated thyE.     

The novel insertion sequences IS1417, IS1418, and IS1419 from Burkholderia glumae and their strain distribution

Three insertion sequences, IS1417, IS1418, and IS1419, were isolated from Burkholderia glumae (formerly Pseudomonas glumae), a gram-negative rice pathogenic bacterium, on the basis of their abilities to activate the expression of the neo gene of the entrap vector pSHI1063. The 1335-bp IS1417 element with 17-bp imperfect terminal inverted repeats was found to be flanked by 5-bp direct repeats of the vector sequence. IS1418 is 865 bp in length and carries 15-bp inverted repeats with a target duplication of 3 bp. The 1215-bp IS1419 sequence is bounded by the 36-bp terminal inverted repeats of the element and 7-bp direct repeats of the vector sequence. IS1417 and IS1418 belong to the IS2 subgroup of the IS3 family and the IS427 subgroup of the IS5 family, respectively, whereas IS1419 does not appear to be a member of any known IS family. Southern blot analysis of DNAs from B. glumae field isolates indicated that those IS elements are widely distributed, but the host range of the three IS elements appears to be limited to B. glumae and some other related species such as B. plantarii. The polymorphisms exhibited in B. glumae isolates suggest that those elements are useful for molecular epidemiological studies of B. glumae infections.     

Construction of mini-Tn4001 transposon vector for Mycoplasma gallisepticum

The detailed genetic analysis of mycoplasmas has long been hampered by the lack of appropriate tools for genetic manipulation. In this study, the transposon vector, mini-Tn4001tetM, was constructed containing the tnp gene, encoding a transposase gene in Staphylococcus aureus, two copies of the IS256 inverted repeat sequence (inner and outer) and the tetM gene, from the Enterococcus faecalis Tn916 transposon, conferring resistance to tetracycline. This vector was electro-transformed into Mycoplasma gallisepticum (MG). The recombinant cells were screened by tetracycline selection. The results indicated that the transposon vector could replicate in MG strain R by successive passages, indicating that MG is a potential vector for expressing protective antigens of other pathogens.     

Isolation and analysis of IS6120, a new insertion sequence from Mycobacterium smegmatis

Insertion sequence IS6120 from Mycobacterium smegmatis was identified by its ability to transpose into different sites in the lambda repressor gene, cl857, carried on an Escherichia coli/mycobacteria shuttle plasmid. IS6120 is a novel 1.5 kb insertion sequence, which has 24-bp imperfect terminal inverted repeats and generates 9-bp duplications of the target DNA following insertion. IS6120 is present in at least three copies in M. smegmatis but was not found in other species, including Mycobacterium tuberculosis. Nucleotide sequence analysis revealed that IS6120 contains two open reading frames, one of which encodes a putative transposase with similarities to those found in IS256 from Staphylococcus aureus, IST2 from Thiobacillus ferrooxidans, and ISRm3 from Rhizobium meliloti. The fact that IS6120 does not recognize a consensus target sequence for insertion and has no homologous sequences in the other strains studied makes IS6120 useful for transposon mutagenesis in mycobacteria.     

Identification of a second endogenous Porphyromonas gingivalis insertion element.

In this study a second endogenous Porphyromonas gingivalis insertion element (IS element) that is capable of transposition within P. gingivalis was identified. Nucleotide sequence analysis of the Tn4351 insertion site in a P. gingivalis Tn4351-generated transconjugant showed that a complete copy of the previously unidentified IS element, designated PGIS2, had inserted into IS4351R in Tn4351. PGIS2 is 1,207 bp in length with 19-bp imperfect terminal inverted repeats, and insertion resulted in a duplicated 10-bp target sequence. Results of Southern hybridization of chromosomal DNA isolated from several P. gingivalis strains with a PGIS2-specific probe demonstrated that the number of copies of PGIS2 per genome varies among different P. gingivalis strains. Computer analysis of the putative polypeptide encoded by PGIS2 revealed strong homologies to the products encoded by IS1358 from Vibrio cholerae, ISAS1 from Aeromonas salmonicida, and H-rpt in Escherichia coli K-12.     

The genes for benzene catabolism in Pseudomonas putida ML2 are flanked by two copies of the insertion element IS1489, forming a class-I-type catabolic transposon, Tn5542

Two directly repeated sequences of the IS elements IS1489v1 and IS1489v2 flank the benzene dioxygenase (bedC1C2BA) and the cis-benzene dihydrodiol dehydrogenase (bedD) genes on the catabolic plasmid pHMT112 in Pseudomonas putida ML2, forming a Class-I-type composite transposon, Tn5542. Both IS1489v1 and IS1489v2 contain an identical 1371-bp open reading frame, tnpA, that is preceded by a possible ribosome binding site. The tnpA gene of IS1489v1 is bound by a pair of 40-bp imperfect inverted repeats while that of IS1489v2 is flanked only by the left inverted repeat. The tnpA gene codes for a putative 53-kDa polypeptide of 456 amino acids bearing similarity to transposases encoded on IS elements of P. alcaligenes, P. aeruginosa, P. stutzeri, and Serratia marcescens. The basic nature of the putative TnpA protein with a deduced pI of 8.93 is typical of IS-encoded transposases. Similar to other IS elements, an outward facing promoter was detected at the right end of IS1489v1. Experiments involving the suicide vector, pKNG101, failed to show transposition of Tn5542.     

Identification and distribution of new insertion sequences in the genome of the extremely halotolerant and alkaliphilic Oceanobacillus iheyensis HTE831.

Six kinds of new insertion sequences (ISs), IS667 to IS672, a group II intron (Oi.Int), and an incomplete transposon (Tn852loi) were identified in the 3,630,528-bp genome of the extremely halotolerant and alkaliphilic Oceanobacillus iheyensis HTE831. Of 19 ISs identified in the HTE831 genome, 7 were truncated, indicating the occurrence of internal rearrangement of the genome. All ISs except IS669 generated a 4- to 8-bp duplication of the target site sequence, and these ISs carried 23- to 28-bp inverted repeats (IRs). Sequence analysis revealed that four ISs (IS669, IS670, IS671, and IS672) were newly identified as belonging to separate IS families (IS200/IS605, IS30, IS5, and IS3, respectively). IS667 and IS668 were also characterized as new members of the ISL3 family. Tn8521oi, which belongs to the Tn3 family as a new member, generated a 5-bp duplication of the target site sequence and carried complete 38-bp IRs. Of the eight protein-coding sequences (CDSs) identified in Tn8521oi, three CDSs (OB481, OB482, and OB483) formed a ger gene cluster, and two other paralogous gene clusters were found in the HTE831 genome. Most of the ISs and the group II intron widely distributed throughout the genome were inserted in noncoding regions, while two ISs (IS667-08 and IS668-02) and Oi.Int-04 were inserted in the coding regions.     

Characterization of insertion sequence IS892 and related elements from the cyanobacterium Anabaena sp. strain PCC 7120.

IS892, one of the several insertion sequence (IS) elements discovered in Anabaena sp. strain PCC 7120 (Y. Cai and C. P. Wolk, J. Bacteriol. 172:3138-3145, 1990), is 1,675 bp with 24-bp near-perfect inverted terminal repeats and has two open reading frames (ORFs) that could code for proteins of 233 and 137 amino acids. Upon insertion into target sites, this IS generates an 8-bp directly repeated target duplication. A 32-bp sequence in the region between ORF1 and ORF2 is similar to the sequence of the inverted termini. Similar inverted repeats are found within each of those three segments, and the sequences of these repeats bear some similarity to the 11-bp direct repeats flanking the 11-kb insertion interrupting the nifD gene of this strain (J. W. Golden, S. J. Robinson, and R. Haselkorn, Nature [London] 314:419-423, 1985). A sequence similar to that of a binding site for the Escherichia coli integration host factor is found about 120 bp from the left end of IS892. Partial nucleotide sequences of active IS elements IS892N and IS892T, members of the IS892 family from the same Anabaena strain, were shown to be very similar to the sequence of IS892.     

Structural and Functional Characterization of IS679 and IS66-Family Elements

A new insertion sequence (IS) element, IS679 (2,704 bp in length), has been identified in plasmid pB171 of enteropathogenic Escherichia coli B171. IS679 has imperfect 25-bp terminal inverted repeats (IRs) and three open reading frames (ORFs) (here called tnpA, tnpB, and tnpC). A plasmid carrying a composite transposon (Tn679) with the kanamycin resistance gene flanked by an intact IS679 sequence and an IS679 fragment with only IRR (IR on the right) was constructed to clarify the transposition activity of IS679. A transposition assay done with a mating system showed that Tn679 could transpose at a high frequency to the F plasmid derivative used as the target. On transposition, Tn679 duplicated an 8-bp sequence at the target site. Tn679 derivatives with a deletion in each ORF of IS679 did not transpose, finding indicative that all three IS679 ORFs are essential for transposition. The tnpA and tnpC products appear to have the amino acid sequence motif characteristic of most transposases. A homology search of the databases found that a total of 25 elements homologous to IS679 are present in Agrobacterium, Escherichia, Rhizobium, Pseudomonas, and Vibrio spp., providing evidence that the elements are widespread in gram-negative bacteria. We found that these elements belong to the IS66 family, as do other elements, including nine not previously reported. Almost all of the elements have IRs similar to those in IS679 and, like IS679, most appear to have duplicated an 8-bp sequence at the target site on transposition. These elements have three ORFs corresponding to those in IS679, but many have a mutation(s) in an ORF(s). In almost all of the elements, tnpB is located in the -1 frame relative to tnpA, such that the initiation codon of tnpB overlaps the TGA termination codon of tnpA. In contrast, tnpC, separated from tnpB by a space of ca. 20 bp, is located in any one of three frames relative to tnpB. No common structural features were found around the intergenic regions, indicating that the three ORFs are expressed by translational coupling but not by translational frameshifting.     

ISCce1 and ISCce2, two novel insertion sequences in Clostridium cellulolyticum

Two new insertion sequences, ISCce1 and ISCce2, were found to be inserted into the cipC gene of spontaneous mutants of Clostridium cellulolyticum. In these insertional mutants, the cipC gene was disrupted either by ISCce1 alone or by both ISCce1 and ISCce2. ISCce1 is 1,292 bp long and has one open reading frame. The open reading frame encodes a putative 348-amino-acid protein with significant levels of identity with putative proteins having unknown functions and with some transposases belonging to the IS481 and IS3 families. Imperfect 23-bp inverted repeats were found near the extremities of ISCce1. ISCce2 is 1,359 bp long, carries one open reading frame, and has imperfect 35-bp inverted repeats at its termini. The open reading frame encodes a putative 398-amino-acid protein. This protein shows significant levels of identity with transposases belonging to the IS256 family. Upon transposition, both ISCce1 and ISCce2 generate 8-bp direct repeats of the target sequence, but no consensus sequences could be identified at either insertion site. ISCce1 is copied at least 20 times in the genome, as assessed by Southern blot analysis. ISCce2 was found to be mostly inserted into ISCce1. In addition, as neither of the elements was detected in seven other Clostridium species, we concluded that they may be specific to the C. cellulolyticum strain used.     

The inverted repeats of IS<Emphasis Type="Italic">1384</Emphasis>, a newly described insertion sequence from<Emphasis Type="Italic"> Pseudomonas putida</Emphasis> strain H,represent the specific target for integration of IS<Emphasis Type="Italic">1383</Emphasis>

Analysis of a region on plasmid pPGH1 from Pseudomonas putida strain H that is flanked by two copies of IS1383 has revealed an additional element with the typical features of a bacterial insertion sequence. This new IS element, designated IS1384, contains a single ORF of 972 bp, and is flanked by 9-bp inverted repeats. Based on sequence homology and structural characteristics of the putative transposase it encodes, IS1384 belongs to the IS5 subgroup of the IS5 family. Two copies of IS1384 are present on plasmid pPGH1, whereas none could be detected on the chromosome of P. putida strain H. Sequence analysis revealed the presence of two truncated copies of IS1384 on the second plasmid in this strain, pPGH2. The inverted repeats of all IS1384 copies (including the truncated ones) are interrupted by the integration of an IS1383 element. All integrations were found to be site- and orientation-specific. PCR studies and sequence data indicate that IS1383 can form a circular intermediate on excision. In the circular form, the previously described 13-bp inverted repeats of IS1383 are separated by 10 bp that are identical to the 5-bp motif that flanks each side of the element when it is integrated in its target. We provide evidence that these additional nucleotides, although not of inverted symmetry, represent an essential part of the inverted repeats. Furthermore, the data indicate that IS1383 integrated into the inverted repeats of IS1384 by a site-specific recombination rather than a site-specific insertion event.     

A 10- rather than 9-bp duplication associated with insertion of Tn5 in Escherichia coli K-12

The composite transposable element Tn5, which is made up of two inverted IS50 elements surrounding genes encoding drug resistance, generally generates 9-bp duplications at the site of insertion. In our studies of three Tn5 insertion mutants at one location in the Escherichia coli chromosome, we have observed that one contains a duplication of 10 bp, while the other two have the usual 9-bp duplication. Three other insertion elements, IS1, IS4, and IS186, give variable-sized target site sequence duplications. We observed a similarity of amino acid sequence in a small region of the putative transposases among IS4, IS186, and Tn5 suggesting a conservation of function in this group of transposases.     

IS231A from Bacillus thuringiensis is functional in Escherichia coli: transposition and insertion specificity.

A kanamycin resistance gene was introduced within the insertion sequence IS231A from Bacillus thuringiensis, and transposition of the element was demonstrated in Escherichia coli. DNA sequencing at the target sites showed that IS231A transposition results in direct repeats of variable lengths (10, 11, and 12 bp). These target sequences resemble the terminal inverted repeats of the transposon Tn4430, which are the preferred natural insertion sites of IS231 in B. thuringiensis.     

Tn602: A naturally occurring relative of Tn903 with direct repeats

We report the characterization of Tn602, a transposon encoding resistance to kanamycin and related aminoglycosides present on the R-plasmid pGD10. Tn602 is highly homologous to the previously characterized Tn903, present on the R-plasmid R6, in that it consists of a gene for aminoglycoside-phosphotransferase-3'-I (homologous to that of Tn903) flanked by copies of an IS-element homologous to IS903. Tn602 differs from Tn903 in the following respects: the flanking IS-elements (IS602) are in direct rather than inverted orientation as in Tn903; the fusion points between the IS-elements and the central region are different from those in Tn903; and several sequence changes, detected by the loss and acquisition of restriction sites, show the two repeats of IS602 to be nonidentical and different from IS903, IS102, and IS903.B. These structural details suggest that Tn602 and Tn903 evolved separately from related modules.