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The F' plasmids ORF-1 (purE+ tsxs proC+ lac+) and F'14 (argE+ metB+ ilv+) contain active regions of recombination, fre I and fre II correspondingly. The plasmid ORF-1 is stable in recF- cells (i.e., with the RecBC pathway of recombination) and decays in rec+ cells (RecBCF pathway) giving two types of product: F+ and plasmid pCK-1 (tsxs proC+ lac+) containing part of the initial DNA. They are extremely instable in the presence of the RecF pathway, (recBC- sbcB-), yielding F+ and plasmid pCK-2 (proC+ lac+). The instability of plasmids depends on a region of homology between the chromosome and the episome. The instability of ORF-1 shows the participation of IS3 elements (alpha 1 beta 3 and alpha 3 beta 1) in the recA, recF-dependent recombinational decay and allows localization of two active sites on the chromosome: fre I1 between purE and tsx markers and fre I2 between tsx and proC. The plasmid F'14, in accordance with published data, is able to yield F+ cells by recA-independent recombination. But eventually this plasmid may undergo a recA, recF-dependent decay. Genetic analysis of these events allows localization of an active point of recombination, freII1, between argE and metB. Another active point is localized inside the F factor. The recA-dependent decay of plasmid F-14 is also excluded on the RecBC pathway (recF- strains).
Mol Gen Genet 1981
PMID:Recombinational instability of F' plasmids in Escherichia coli K-12: localization of fre-sites. 627 75

Mutations at over 70 sites in the cI gene have been mapped by 4-factor crosses and assigned precise or approximate positions in the DNA sequence. 16 of 25 spontaneous mutations were insertions of IS1, IS3 or IS5 into AT-rich regions of cI. The 5-methylcytosine in the sequence Cm5CAGG is a hot spot for spontaneous cI amber mutations. Recombination frequencies between mutations were proportional to distance with the exception of amber mutations at 4 sites, including the host spot for spontaneous mutations. Mutations with a given phenotype are clustered on the genetic map. No missense mutations affecting repressor activity were found in the central one-third of cI, but 5 of 6 ind- mutations were located in this region. The amino-terminal third of the gene contains the sites of most trans-dominant cI- mutations, and of all ts mutations that result in repressors that are reversibly inactivated at high temperatures.
Mol Gen Genet 1981
PMID:A fine structure map of spontaneous and induced mutations in the lambda repressor gene, including insertions of IS elements. 627 51

Deleted derivatives of F lac+ proC+ tsx+/- purE+ plasmids ORF203 and F13 were isolated and physically characterized. Among 31 deletions, 24 were adjacent to the gamma delta element on F, four were associated with IS2 or IS3 elements normally present on F, and three displayed additional DNA rearrangements. With the genetic selection employed, the deletion endpoints in the chromosomal segment could fall anywhere within a 210 kb (5 min) region between proC and lac. The distribution of endpoints in this region was not random: the endpoints primarily occurred in an extended region near purE, and a 50 kb segment between tsx and purE was devoid of deletion endpoints. Deletion termini for mutants obtained from F13, which contains an additional 48 kb-segment interposed between gamma delta and the target region on ORF203, displayed a distribution similar to that seen for ORF203. Among simple deletions, there was no marked tendency for the chromosomal deletion endpoints to fall at IS1, IS3, or IS5 elements normally present in this chromosomal region. Point mutations and mutations caused by gamma delta or IS transposition into lac appeared in a small proportion of all plasmids studied.
Mol Gen Genet 1983
PMID:Gamma delta-mediated deletions of chromosomal segments on F-prime plasmids. 630 74

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 20 kDa and 6 kDa 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.
Mol Microbiol 1995 May
PMID:Characterization of IS1221 from Mycoplasma hyorhinis: expression of its putative transposase in Escherichia coli incorporates a ribosomal frameshift mechanism. 747 62

Integration of plasmid pCGL320 into a Corynebacterium glutamicum ATCC21086 derivative led to tandem amplification of the inserted plasmid (Labarre et al., 1993). One amplification event was associated with integration of an insertion sequence that we have named IS1206. Hybridizing sequences were only found in C. glutamicum strains and at various copy numbers. IS1206 is 1290 bp long, carries 32 bp imperfect inverted repeats and generates a 3 bp duplication of the target DNA upon insertion. IS1206 presents the features characteristic of the IS3 family and part of the DNA sequence centering on the putative transposase region (orfB) is similar to those of IS3 and some other related elements. Phylogenetic analysis of orfB deduced protein sequences from IS1206 and IS3-related elements contradicts the phylogeny of the species, suggesting that evolution of these elements might be complex. Horizontal transfer could be invoked but other alternatives like ancestral polymorphism or/and different rates of evolution could also be involved.
Mol Microbiol 1994 Nov
PMID:Identification of IS1206, a Corynebacterium glutamicum IS3-related insertion sequence and phylogenetic analysis. 788 35

The eight IS231 variants characterized so far (IS231 A-F, V and W) display similar transposases with an overall 40% identity. Comparison with all the prokaryotic transposable elements sequenced so far revealed that the IS231 transposases share two conserved regions with those of 35 other insertion sequences of wide origins. These insertion sequences, defining the IS4 family, have a common bipartite organization of their ends and are divided into two similarity groups. Interestingly, the transposase domains conserved within this family display similarities with the well known integrase domain shared by transposases of the IS3 and IS15 families, and integrases of retroelements. This domain is also found in IS30-related elements and Tn7 TnsB protein. Amino acid residues conserved throughout all these prokaryotic and eukaryotic mobile genetic elements define a major transposase/integrase motif, likely to play an important role in the transposition process.
Mol Microbiol 1993 Sep
PMID:The IS4 family of insertion sequences: evidence for a conserved transposase motif. 793 41

Sequence analysis of the Pseudomonas aeruginosa insertion sequence element IS222 revealed it to be 1234 bp in size with 23 bp imperfect terminal inverted repeats. Insertion caused a 5-bp duplication of the insertion site. Two ORFs were identified, one of which, ORFA, could encode a basic (pI 10.5) polypeptide with a mass of 11,709. This sequence bears strong homology to the putative ORFA product from the Shigella dysenteriae insertion sequence element IS911, which is a member of the IS3 family of insertion elements. As with other members of this group the nucleotide sequence contains a "frameshift window" (AAAAAAG; M. Chandler and O. Fayet (1993). Mol. Microbiol. 7, 497-503) at which ribosome slippage can result in a fusion protein (ORFAB).
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PMID:Nucleotide sequence of the Pseudomonas aeruginosa insertion sequence IS222: another member of the IS3 family. 802 30

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 IS1138, and the target site into which it inserted were determined. IS1138 consists of 1288 bp with 18 bp perfect terminal inverted repeats. Sequence analysis of the target site before and after insertion of IS1138 identified a 3 bp duplication of target DNA flanking the element. The predicted amino acids encoded by the major open reading frame of IS1138 share significant similarity with the transposases of the IS3 family. Southern hybridization analysis indicates that repetitive sequences similar to IS1138 are present in most, if not all, strains of M. pulmonis, but IS1138-like sequences were not detected in other mycoplasmal species.
Mol Microbiol 1993 Feb
PMID:Identification and characterization of IS1138, a transposable element from Mycoplasma pulmonis that belongs to the IS3 family. 809 21

IS3 (1258 bp in length) contains two open reading frames, orfA and orfB, which are out of phase and overlap each other. We show here that three proteins of 10, 32 and 42 kDa in size are encoded by IS3. The 10 kDa protein is the product of orfA and is here called OrfA. The ATG codon of orfB which overlaps the termination codon of orfA is utilized to produce the 32 kDa protein (here called OrfB), in a manner depending on translation of orfA. The 42 kDa protein is a transframe protein (here called OrfB), which is synthesized from orfA and orfB by -1 translational frameshifting at the A4G motif present in the overlapping region. Both the frameshifting event to produce OrfB and the coupled translation event to produce OrfB are greatly stimulated by a pseudo knot structure located in the overlapping region between orfA and orfB. A mutant IS3 with a single base insertion in the A4G motif efficiently produces the OrfB transframe protein without frameshifting. This mutant was found not to mediate co-integration but to mediate adjacent deletion to produce various miniplasmids and minicircles in large amounts. The OrfB transframe protein is necessary and sufficient for formation of these deletion products, implying that it is the transposase. Most of the minicircles consisted solely of the entire IS3 sequence and a three base-pair sequence between the IS3 ends. The significance of minicircle formation is discussed.
J Mol Biol 1994 Feb 04
PMID:Translational control in production of transposase and in transposition of insertion sequence IS3. 810 82

Our laboratories have independently identified a gene in Salmonella choleraesuis and Salmonella typhimurium that is necessary for efficient adherence and entry of these organisms into cultured epithelial cells. Introduction of a mutated gene into several Salmonella strains belonging to different serotypes rendered these organisms deficient for adherence and invasion of cultured cells. This effect was most pronounced in the host-adapted serotypes Salmonella gallinarum, S. choleraesuis, and Salmonella typhi. The nucleotide sequence of this gene, which we have termed invH, encodes a predicted 147-amino-acid polypeptide containing a signal sequence. The InvH predicted polypeptide is highly conserved in S. typhimurium and S. choleraesuis, differing at only three residues. The invH gene was expressed in Escherichia coli using a T7 RNA polymerase expression system and a polypeptide of approximately 16,000 molecular weight was observed, in agreement with the predicted size of its gene product. Upon fractionation, the expressed polypeptide was localized in the bacterial membrane fraction. Southern and colony hybridization analyses indicated that the invH gene is present in all Salmonella strains tested (91 strains belonging to 37 serotypes) with the exception of strains of Salmonella arizonae. No homologous sequences were detected in Yersinia, Shigella, Proteus, and several strains of enteroinvasive and enteropathogenic E. coli. Downstream from the S. choleraesuis (but not S. typhimurium) invH gene, a region with extensive homology to the insertion sequence IS3 was detected.
Mol Microbiol 1993 Jan
PMID:Cloning and molecular characterization of a gene involved in Salmonella adherence and invasion of cultured epithelial cells. 838 33

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