Functional characterization of the prokaryotic mobile genetic element IS26

Summary IS26L and IS26R are the 820 bp long elements found as direct repeats at both ends of the kanamycin resistance transposon Tn2680. They can mediate cointegration in E. coli K12 which contains no IS26 in its chromosome. Cointegration occurs in rec ⁺ or recA ^- strains with similar frequency. Upon cointegration mediated by either IS26R or IS26L, the element is duplicated and integrated into one of many different sites. Both IS26L and IS26R carry 14 bp perfect terminal inverted repeats and generate 8 bp direct repeats at their target sequences. Deletion formation mediated by IS26R was also observed. These functional and structural features of IS26 are characteristic of a prokaryotic mobile genetic element.     

Second-element turn-on of gene expression in an IS1 insertion mutant

Summary To learn more about the ways in which genes silenced by insertion mutations can be reactivated, we have undertaken a systematic investigation of Gal⁺ revertants of the polar mutant galOP-306::IS1 in Escherichia coli K12. The selective conditions used excluded reversion to wild type by precise excision of IS1. In this system (which resisded on a multi-copy plasmid) reversion to the Gal⁺ phenotype occurred with a frequency of about 10^-7 per cell and per generation. Analysis of the revertants revealed that — with the single exception of the previously published chromosomal mutant sis1 — alterations in the structure of IS1 lead to reactivation of gal operon expression. These events fall into four classes: (I) insertion of IS2 at position 327 in IS1, insertion of IS2 at position 687 in IS1, (III) insertion of a hitherto undetected mobile element, IS150, at position 387, (IV) a 16-bp deletion encompassing IS1 coordinates 553–568. Of some 200 independent reversion events studied, all but one were of types I–III i.e. they involved the intervention of a second mobile element.     

Analysis of relative reversion frequencies for IS2 insertion mutations in the regulatory region of the galOPETK operon of Escherichia coli

Two previously characterized mutations in the galOPETK operon of Escherichia coli, galOP-3 and galOPE-490, contain IS2 insertions only 1 bp apart in the gal regulatory region; yet only the former yields Gal⁺ phenotypic revertants at a detectable frequency. We have shown that the galOPE-490 allele comprises two mutations—an IS2(I) insertion at bp+(2–6) (relative to the gal mRNA start site) plus a C/G to A/T transversion at bp+59. The latter creates an ochre stop codon and lies within the internal site of the bipartite gal operator; it acts as an operator mutation in an in vivo repressor titration assay. Analysis of a newly isolated allele (galOP-490^*) which retains the IS2 of galOPE-490 but is galE⁺ reveals a reversion frequency approximately 30-fold higher than that of galOP-3. Reversion of galOPE-490 is at least 10,000-fold lower and has not been detectable even under conditions conducive to enhanced double mutations in other systems.     

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     

The Non-Random Pattern of Insertion of IS2 into the hemB Gene of Escherichia coli

The hemB gene of Escherichia coli has been identified as a hot spot for the insertion of the transposable element IS2. The insertional specificity of IS2 is still unclear. This study reports on the attempt to sequence a statistically significant number of insertions in hemB, in order to determine whether there might be a basis for future studies to determine a molecular basis of IS2 insertional specificity. The results indicate that IS2 inserts in a non-random manner into a 240 bp segment at the 5′ end of the gene (region I). Twenty-one of 24 insertions occurred in region I. Three insertions have been identified in the two middle 250 bp segments of the 975 bp gene, and none in the 3′ terminal segment. A seventeen bp sequence showing 88.2% identity with a segment of IS2, 221 bp from the 3′ terminus has been identified in region I. Four instances of repeated insertion between the same pair of nucleotides have been observed at four different sites.     

Characterization of IS1676 from Rhodococcus erythropolis SQ1

To develop a transposable element-based system for mutagenesis in Rhodococcus, we used the sacB gene from Bacillus subtilis to isolate a novel transposable element, IS1676, from R. erythropolis SQ1. This 1693 bp insertion sequence is bounded by imperfect (10 out of 13 bp) inverted repeats and it creates 4 bp direct repeats upon insertion. Comparison of multiple insertion sites reveals a preference for the sequence 5′-(C/T)TA(A/G)-3′ in the target site. IS1676 contains a single, large (1446 bp) open reading frame with coding potential for a protein of 482 amino acids. IS1676 may be similar to an ancestral transposable element that gave rise to repetitive sequences identified in clinical isolates of Mycobacteriumkansasii. Derivatives of IS1676 should be useful for analysis of Rhodococcus strains, for which few other genetic tools are currently available. Received: 1 April 1999 / Received revision: 6 July 1999 / Accepted: 1 August 1999     

A New Insertion Variant, IS231I, Isolated from a Mosquito-Specific Strain of Bacillus thuringiensis

A new insertion variant belonging to the family IS231, designated IS231I, was isolated from a mosquito larvicidal strain of the Bacillus thuringiensis serovar sotto (H4ab). IS231I was 1653 bp long and delimited by two 20 bp inverted repeats with one mismatch, flanked by two perfect 11 bp direct repeats. The element contained a single open reading frame (ORF) encoding 478 amino acids and five conserved domains: N1, N2, N3, C1, and C2. The 5′ noncoding region upstream of the ORF, presumed to form a stable stem-and-loop structure, was highly conserved in IS231I. The secondary structure conformation had a deduced free energy (ΔG = 25°C) of −17.2 kcal/mol. Comparison of the IS231I amino acid sequence with those of the 10 existing IS variants revealed that the new variant shares 89% identity with IS231A and IS231B, 65–66% with IS231M and IS231N, and 38% with IS231W.     

Identification and characterization of IS 1138, a transposable element from Mycoplasma pulmonis that belongs to the IS3 family

Insertion sequence (IS) elements are mobile genetic elements found in prokaryotes. We have identified a repetitive element from Mycoplasma pulmonis, a murine pathogen, that is similar to eubacterial IS elements. By subcloning a single strain of M. pulmonis, we isolated a variant clone in which the IS element had undergone an apparent transposition event. The nucleotide sequences of the element, designated IS 1138, and the target site into which it inserted were determined. IS1138 consists of 1288bp with 18bp perfect terminal inverted repeats. Sequence analysis of the target site before and after insertion of IS1138 identified a 3bp duplication of target DNA flanking the element. The predicted amino acids encoded by the major open reading frame of IS 1138 share significant similarity with the transposases of the IS3 family. Southern hybridization analysis indicates that repetitive sequences similar to IS 1138 are present in most, if not all, strains of M. pulmonis, but Is1138–like sequences were not detected in other mycoplasmal species.     

Insertions of transposable elements in the promoter proximal region of the gene cluster for Escherichia coli H+-ATPase: 8 base pair repeat generated by insertion of IS1

Summary A plasmid pKY159 (Yamaguchi and Yamaguchi 1983) carrying a promoter proximal portion of the gene cluster of the proton-translocating ATPase (H⁺-ATPase) of Escherichia coli causes growth inhibition of wild-type cells. Insertion of a transposable element in this plasmid released this inhibitory effect. In analyzing this inhibitory effect, we determined the insertion points at the nucleotidesequence level of transposable elements on 30 independent derivatives of pKY159. Insertions of IS1, IS5, and were found between the promoter and the gene for a possible component of 14,000 daltons of the H⁺-ATPase. Of 31 insertions, 26 were of IS1 and were located at the same site, indicating that this site is a hotspot for IS1 insertion and that IS1 insertion is much more frequent than that of IS5 of in this region. Four different sites for IS1 insertion were found; in two of these an 8 base pair (bp) duplicate of the target sequence (AAAAACGT and AAACGTTG) was generated, while in the other two a 9 bp duplicate was found. In all cases in this study the nucleotide sequence of IS1 was the same as that of IS1-K. In the two cases with an 8 bp duplicate in different sites, a common 6 bp sequence (AAACGT) was found. These results suggested that generation of the 8 bp duplicate is related to the common sequence rather than a mutation in IS1 suggested by Iida et al. (1981) and also suggested that the essential length of the duplicate is 8 bp or less than 8 bp. A 6 bp sequence (GTGATG) homologous to the end portion of IS1 was found at the hotspot, but not at other sites, suggesting that this homology contributed to the high frequency of IS1 insertion. The direction of IS1 insertion at the hotspot was the same in 25 of 26 instances, suggesting that the direction of IS1 insertion is determined by the structure of the target and/or its nearby sequence.Abbreviations bp base pairs - 14 K protein a possible component of the H⁺-ATPase with molecular weight of 14,000 (see Kanazawa and Futai 1982 for details) - EDTA ethylenediaminetetraacetate     

Characterization of IS1389, a new member of the IS3 family of insertion sequences isolated from Xanthomonas campestris pv. amaranthicola

IS1389, a new insertion sequence belonging to the IS3 family, has been identified in Xanthomonas campestris pv. amaranthicola. The genome of this bacterium contains at least 11 copies of the element, whereas no hybridizing sequences were detected in other Xanthomonas species [X. axonopodis, X. fragaridae, X. phaseoli, and X. (Stenotrophomonas) maltophila]. Two nearly identical copies of the element (IS1389-A and IS1389-B) were characterized. According to analysis of sequence alignments and similar structural features, IS1389 belongs to the IS407 subgroup of the IS3 family, which duplicates 4 bp of target DNA upon insertion. IS1389-A was found in the proximity of the modification gene of the XamI restriction-modification system. Received: 17 November 1998 / Accepted: 22 April 1999     

Characterization of IS1221 from Mycoplasma hyorhinis: expression of its putative transposase in Escherichia coli incorporates a ribosomal frameshift mechanism

Seven complete and two partial copies of IS1221 variants from Mycoplasma hyorhinis and Mycoplasma hyopneumoniae characterized to date have established a consensus IS1221 as a 1513 bp element with unique structural characteristics resembling the IS3 family of bacterial insertion sequences. Each IS1221 copy contains highly conserved 28 bp imperfect terminal inverted repeats and three distinctive internal inverted repeats (LIR, RIR and IIR). IIR is located within the coding region of the element and it is proposed that it plays a critical role in the regulation of putative transposase expression. Consensus IS1221 and one particular copy, G1135.2, contain a single long open reading frame (ORF). Two potential initiation codons are present at nucleotide 46 (AUG46) and nucleotide 397 (AUG397) and both are preceded by strong ribosome-binding sites. Both initiation codons can be used efficiently in an Escherichia coli T7 expression system. The LIR has a negative regulatory effect on translation initiation from AUG46. A -1 translational frameshift event is shown to be involved in expression of the IS1221 ORF and results in the production of 20kDa and 6kDa truncated proteins from the respective upstream initiation codons of the IS1221 ORF. Base substitution and deletion mutations in sequences resembling characterized motifs in documented examples of translational frameshifting resulted in a significant increase in the full-length products and a corresponding decrease in the truncated products from the IS1221 ORF. In contrast to the usual -1 frameshift regulatory event in the IS3 family, which produces a transframe fusion product as the active transposase, IS1221 may have evolved a high-frequency -1 frameshift mechanism that produces a truncated product from the upstream coding domain and thereby results in the regulated low-level production of the full-length presumptive transposase.     

The Sinorhizobium meliloti Insertion Sequence (IS) Element ISRm14 Is Related to a Previously Unrecognized IS Element Located Adjacent to the Escherichia coli Locus of Enterocyte Effacement (LEE) Pathogenicity Island

ISRm14 is 2695 basepairs (bp) in size and bordered by 22 bp imperfect inverted repeats (IRs). A 9-bp target sequence is duplicated upon ISRm14 transposition. The DNA strand that putatively encodes the transposase enzyme carries three open reading frames (ORFs) designated ORFs1 to 3, which specify putative proteins of 15.9 kDa, 13.1 kDa, and 61.1 kDa, respectively. According to its structural characteristics, ISRm14 belongs to the recently proposed IS66 family of IS elements. The ORFs1 to 3 encoded putative proteins displayed significant similarities to ORFs of the previously unrecognized IS element ISEc8, which is inserted adjacent to the locus of enterocyte effacement (LEE) pathogenicity island of Escherichia coli EDL933. Analyses of the distribution of ISRm14 in a natural S. meliloti population showed its widespread occurrence in 66% of the strains tested with a copy number ranging from 1 to 6. Received: 13 May 1999 / Accepted: 14 June 1999     

Characterization of IS1474, an insertion sequence of the IS21 family isolated from Pseudomonas alcaligenes NCIB 9867

A new insertion sequence (IS) designated IS1474 was isolated from Pseudomonas alcaligenes NCIB 9867 (P25X). IS1474 is a 2632 bp element which showed a characteristic IS structure with 12 bp inverted repeats (IRs) flanking a 2608 bp central region. IS1474 contained four open reading frames (ORF1–ORF4), two in each orientation. Similarities were detected between ORF1 and ORF2 and the putative transposases of the IS21 family. Sequences upstream from IS1474 were found to display up to 89% homology with IS53 from Pseudomonas syringae suggesting that IS1474 had inserted into another related IS element designated IS1475. An open reading frame, ORF5, located at the junction of IS1474 and IS1475, showed similarities with the IstB protein of IS21 and could possibly be the transposase subunit of IS1475. Transposition assays showed that IS1474 transposed at a relatively low frequency leading to cointegration with target plasmids. Hybridization studies showed that IS1474 is present in at least 13 copies in the chromosome of P25X and one copy on its endogenous plasmid.     

Mapping of IS1 elements flanking the argF gene region on the Escherichia coli K-12 chromosome

Summary Two directly-repeated IS1 elments have been mapped on the Escherichia coli K-12 chromosome at positions 23.2 kb and 34.5 kb counterclockwise of the IS3 element ₃₃ by using F-prime plasmids (including the F lac ^- proAB⁺ plasmid F128) that carry different portions of the bacterial chromosome in the purE to proA region. Mapping was accomplished in part by construction of EcoRI, BamHI, and BglII restriction enzyme cleavage maps. Electron microscope heteroduplex and hybridization studies indicate that the chromosomal region flanked by these IS1 elements is completely homologous to the IS1-argF-IS1 region (Tn2901) on the P1argF5 transducing phage (York and Stodolsky, 1981), which suggests that the argF gene region in the usual E. coli K-12 strains has a transposon-like structure.     

A cloned DNA fragment from bacteriophage P1 enhances IS2 insertion

Summary A 1.75 kb DNA segment of the bacteriophage P1 genome is known to serve as a preferred target for IS2 insertions. The presence of this fragment in a plasmid expressing the galK gene dramatically increases the proportion of IS2 insertions among spontaneous galK ^- mutants. Subfragments from two different parts of the 1.75 kb segment independently stimulate IS2 insertion, while another subfragment does not. In the plasmids studied IS2 elements not only insert into the cloned P1 fragment but also into parts of the galK gene with similar probability and mostly in one orientation. Many insertion sites are unique but several specific sites within the preferred target are repeatedly used for IS2 integration. The experimental data are compatible with a proposed cooperative mechanism, according to which more than one attracting sequence on the same plasmid might significantly enhance the probability of a particular target region to attract IS2.     

Characterization and distribution of two insertion sequences,IS1191 and iso-IS981, in Streptococcus thermophilus: does intergeneric transfer of insertion sequences occur in lactic acid bacteria co-cultures?

A chromosomal repeated sequence from Streptococcus thermophilus was identified as a new insertion sequence (IS), IS1191. This is the first IS element characterized in this species. This 1313 bp element has 28 bp imperfect terminal inverted repeats and is flanked by short direct repeats of 8bp. The single large open reading frame of IS1191 encodes a 391-amino-acid protein which displays homologies with transposases encoded by IS1201 from Lactobacillus helveticus (44.5% amino-acid sequence identity) and by the other ISs of the IS256 family. One of the copies of IS 1191 is inserted into a truncated iso-IS981 element. The nucleotide sequences of two truncated iso-IS981 s from S. thermophilus and the sequence of IS981 element from Lactococcus lactis share more than 99% identity. The distribution of these insertion sequences in L. lactis and S. thermophilus strains suggests that intergeneric transfers occur during co-cultures used in the manufacture of cheese.     

A new insertion sequence from Sinorhizobium meliloti with homology to IS1357 from Methylobacterium sp. and IS1452 from Acetobacter pasteurianus

The insertion sequence ISRm8 was identified by sequence analysis of the cryptic plasmid pRmeGR4b of Sinorhizobium meliloti GR4. ISRm8 is 1451 bp in length and carries 22/24-bp terminal imperfect inverted repeats with seven mismatches and a direct target site duplication of 3 bp. ISRm8 carries a unique open reading frame whose putative protein showed significant similarity to the insertion sequences IS1357 and IS1452, isolated from Methylobacterium sp. and Acetobacter pasteurianus, respectively. Two copies of this IS element were found in strain GR4; one of them is linked to plasmid pRmeGR4b, whereas the other is localized out of the non-pSym plasmids. In S. meliloti field populations ISRm8 shows a limited distribution (50% of the strains tested carry the IS element), with a copy number ranging from 1 to 6.     

Nature of deletions formed in response to IS2 in a revertant of the gal3 insertion of E. coli.

Summary The gal3 mutation of E. coli, which arose by the insertion of IS2 in the OP region of the gal operon, reverts spontaneously by excision of the IS2 to produce inducible revertants or by mutational alterations of IS2 to produce constitutive revertants. However, gal3() strains bearing chlD-pgl deletions produce constitutive revertants alone. We proposed that deletions formed in the presence of IS2 terminate specifically at its right end, so that revertants arising by excision of IS2 fuse the gal genes to other promoters. Therefore, the revertants are exclusively constitutive.The above hypothesis was tested by electron microscopy of IS2-specific deletions. Spontaneous chlD-pgl deletions were isolated from gal ^c331 (a revertant of gal3 which retains IS2) and transferred to gal genomes. Electron microscopy of DNA heteroduplexes from these phages confirmed that all of the deletions examined have one end-point fixed at the right end of IS2, whereas their other end-points are variable. In each case, the complete IS2 element was apparently retained. This specificity was also detectable in a revertant (gal ^c200) which retains only the right 1/5 portion of the IS2. The frequencies of these deletions were generally increased in constitutive revertants of gal3. Since a galO ^cmutant did not show a similar increase, it seems that this effect depends upon a base sequence provided by IS2. Moreover, the presence of prophage contributes to the specificity and, in some instances, the frequency of IS2-specific deletions.A mechanism for the formation of the IS2-specific deletions has been proposed. A base sequence located at, or near, the right end of IS2 is recognized and nicked by a specific endonuclease. The nick is enlarged by unidirectional, exonucleolytic degradation to produce deletions extending outwards from the insertion. In constitutive revertants, the nicking site may be exposed to endonucleolytic attack more frequently.     

Transposition of IS1-lambdaBIO-IS1 from a bacteriophage lambda derivative carrying the IS1-cat-IS1 transposon (Tn9)

Summary Tn9 is a transposable element in which a gene (cat) determining chloramphenicol resistance is flanked by directly repeated sequences that are homologous to the insertion sequence IS1. We show here that infection of Escherichia coli K12 (under Rec^- Red^- Int^- conditions) with a bio transducing phage carrying Tn9 results in the formation of bio transductants as frequently as cat transductants (about 1 per 10⁶ to 10⁷ infected cells). Most of the bio transductants do not carry cat, just as most of the cat transductants do not carry bio. In spite of the absence of cat, the bio prophage can transpose a second time, from the E. coli chromosome to different sites on an F gal plasmid. Analysis of the structure of the transposed bio element, by restriction nuclease digestion and by electron microscopy, demonstrates that the integrated bio prophage is flanked by directly repeated IS1 elements. We conclude that there is no genetic information for the ability to transpose encoded in the non-repeated portion of Tn9, i.e. that the directly repeated IS1 elements alone are responsible for Tn9 transposition.