Insertion Sequence-like Element Research Articles

Cis-Acting Determinant Limiting Expression of Sphingomyelinase Gene sph2 in Leptospira interrogans, Identified with a gfp Reporter Plasmid.

Many strains of the spirochete Leptospira interrogans serovar Pomona express the osmotically inducible sphingomyelinase gene sph2 at much higher levels than strains from other serovars. We developed a new green fluorescent protein (GFP) reporter plasmid to examine sph2 gene expression determinants. The vector enables the fusion of the test promoter to the ribosome-binding site and coding region of gfp We fused the sph2 promoters from the L. interrogans serovar Lai strain 56601 and from the L. interrogans serovar Pomona strain LC82-25 to gfp to examine the molecular determinants of differential sph2 expression between the two strains. Similar to what was observed with the native sph2 genes, the introduction of the plasmids into the Lai 56601 strain resulted in near background levels of gfp expression from the Lai sph2 promoter, while the expression from the Pomona sph2 promoter was high. The expression of both fusions increased at physiologic levels of osmolarity achieved by adding sodium chloride to the culture medium. We examined the role of a 17-bp upstream element found in all L. interrogans strains expressing low basal levels of sph2 and missing from Pomona strains that express sph2 at high levels. When the 17-bp sequence present upstream of the Lai sph2 promoter was deleted or scrambled, the fusion expression increased substantially. Conversely, the insertion of the 17-bp sequence upstream of the Pomona sph2 promoter diminished fusion expression. In contrast, the removal of an insertion sequence-like element that is found only in the Pomona sph2 upstream sequence had no effect on the expression from the Pomona sph2 fusion in the Lai strain. These findings demonstrate the utility of the gfp reporter plasmid in analyzing gene expression in L. interrogansIMPORTANCE Genetic tools are needed to examine gene expression in the pathogen Leptospira interrogans We developed a reporter plasmid that replicates in L. interrogans with green fluorescent protein (GFP) as the readout of promoter activity. We demonstrated an application of the new reporter plasmid by identifying an upstream element responsible for the poor basal expression of the sph2 sphingomyelinase gene in an L. interrogans serovar Lai strain. This new tool is useful for the discovery of the molecular determinants of L. interrogans gene expression.

Characterization of an insertion sequence-like element, ISBlo15, identified in a size-increased cryptic plasmid pBK283 in Bifidobacterium longum BK28

The characteristics of mobile genetic elements in bifidobacteria are not well understood. We characterized an insertion sequence-like element of the IS200/IS605 family found in a size-increased cryptic plasmid in Bifidobacterium longum. During a plasmid profile analysis of B. longum BK strains, we encountered a 6.5-kbp cryptic plasmid pBK283 in B. longum BK28, the size of which has not been identified in bifidobacteria. Nucleotide sequence analysis indicated that an insertion sequence-like element was inserted into the 5.0-kbp pKJ50-like plasmid and resulted in a size increase of pBK283. The element, named ISBlo15, was 1593 bp in length and contained a single ORF encoding a putative transposase, which is similar to the transposase OrfB encoded by IS200/IS605 family elements. Several sequence characteristics, including conserved transposase motifs in OrfB and terminal palindromic sequences that differ from the typical terminal inverted repeats, strongly suggested that ISBlo15 is a member of the IS200/IS605 family. Sequences similar to ISBlo15 were widely distributed among the nine Bifidobacterium species tested, and those of highly homologous sequences were detected only in Bifidobacterium gallicum JCM8224(T).

Molecular characterization of newly identified IS3, IS4and IS30insertion sequence-like elements inMycoplasma bovisand their possible roles in genome plasticity

Insertion sequences (ISs) are mobile genetic elements widely distributed among bacteria. Their impact on the bacterial genome is multifold, including transfer of genetic information, shuttle of adaptive traits and influence on the genomic content. As a result, ISs play an important role in the organization, plasticity and evolution of bacterial genomes. In this study, four new IS elements: ISMbov7; ISMbov4 and ISMbov5; and ISMbov6, related, respectively, to the IS3, IS4 and IS30 gene families, were identified and characterized with respect to inverted repeat (IR) and directly repeated (DR) sequences, putative target specificity and motifs related to transposase function. For instance, IS30-related ISMbov6 isoform elements were shown to (1) contain an alpha-helix-turn-alpha-helix homeodomain (HTH), (2) generate long DR and (3) possess target specificity for a palindromic sequence derived from putative rho-independent transcription terminators. Members of the IS3 family, which had not been documented previously in Mycoplasma bovis, contain HTH, leucine zipper and AT-hook motifs, which may be involved in DNA binding. In addition, the availability of the M. bovis PG45 genome sequence allowed us to elucidate the genomic organization of 54 intact or truncated IS elements and their possible effect on the expression of adjacent genes.

Molecular cloning of an insertion sequence-like element from Vibrio anguillarum and its functional identification in E. coli

The tdh (thermostable direct hemolysin) gene occurs in some strains of Vibrio species. All tdh genes are flanked by insertion sequence-like elements (ISV). All previous attempts have failed to detect transposition of these ISVs. In this work, we have built a transposition detection system in E. coli and succeeded in detecting the transposition of an insertion sequence-like element at a frequency of Km(r) mutants of 7.2 x 10(-6). A specific flanking sequence (5'-Py-Pu-3') was found on either side of the target duplication.

Vibrio cholerae CTX?? Phage Repressor Gene is Borne on an Insertion Sequence-Like Element and Encodes a Putative Transposase

Bioinformatics analyses show the presence of a novel insertion sequence-like element in the CTXPhi phage of Vibrio cholerae. The solitary open reading frame encompassed by the element is known to encode a repressor (RstR) of phage DNA replication and is responsible for phage heteroimmunity. Analysis of the nucleotide and protein sequence of the repressor and its flanking non-coding regions indicates that it resembles distinctly simple bacterial insertion elements in numerous aspects. Based on the results of extensive sequence analysis, we propose that the rstR gene is borne on an insertion sequence-like element and that the RstR protein encodes a putative transposase. We put forward the possibility that a bi-directional promoter could regulate the divergent transcription of the neighbouring genes of rstR and rstA. The possibility of overlapping reading frames yielding distinct repressor and transposase proteins is also expanded based on the analyses.

Immunoreactivity and differential developmental expression of known and putative Chlamydia trachomatis membrane proteins for biologically variant serovars representing distinct disease groups

Chlamydia trachomatis is an intracellular bacterium that causes ocular and urogenital diseases worldwide. Membrane proteins have only been partially characterized, and the discovery of a nine-member polymorphic membrane protein gene family has enhanced interest in defining their function. We previously reported two putative insertion sequence-like elements in pmpC for biovariant Ba and one each for G and L 2, suggesting horizontal gene transfer. Because of this and the tissue tropism differences for these biovariants, we analyzed by quantitative real-time RT-PCR pmpC expression relative to immunogenic protein genes ompA, groEL and gseA throughout development. Sera from infected adolescents were reacted by immunoblot against recombinant (r)PmpC and rMOMP. ompA and groEL revealed different developmental transcriptome profiles among the biovariants. pmpC expression occurred at 2 h, peaked at 18 for L 2 (at 24 for Ba and G), with the highest mRNA levels throughout development for L 2. pmpC expression as a function of time paralleled ompA expression with higher mRNA levels compared with groEL later in development. Only sera from D-, E- and G-infected patients reacted to rPmpC; all infected patients reacted to rMOMP. pmpC expression during logarithmic growth suggests a role in membrane building and/or integrity, which is supported by the presence of a signal peptidase and C-terminal phenylalanine in PmpC. Because phylogenetic analyses of pmpC segregate serovars according to tissue tropism, we speculate that biovariant transcriptome differences may contribute to this tropism. The heterogeneous biovariant pmpC expression throughout development and differential PmpC immunoreactivity also suggest a role for pmpC in antigenic variation.

Novel insertion sequence-like elements in phytoplasma strains of the aster yellows group are putative new members of the IS3 family

Novel insertion sequence (IS)-like elements were isolated and characterized from phytoplasma strains in the aster yellows (AY) group (16SrI). The IS-like elements were cloned from phytoplasma strains AY1 and NJAY or PCR-amplified from 15 additional strains representing nine subgroups in the AY group using primers based on sequences of the putative transposases (Tpases). All IS-like elements contained sequences encoding similar Tpases of 321 amino acids (320 for strain CPh). Substantial amino acid sequence variability suggested multiple species of Tpases or IS-like elements exist in the AY phytoplasma group. These Tpases have an identical DDE motif that is most similar to the DDE consensus of Tpases in the IS3 family.

Genetic characterization of the dibenzofuran-degrading Actinobacteria carrying the dbfA1A2 gene homologues isolated from activated sludge

Thirteen dibenzofuran (DF)-utilizing bacteria carrying the DF terminal dioxygenase genes homologous to those of Terrabacter sp. strain DBF63 ( dbfA1A2) were newly isolated from activated sludge samples. The amplified ribosomal DNA restriction analysis and the hybridization analyses showed that these strains were grouped into five genetically different types of bacteria. The sequence analyses of the 16S rRNA genes and the dbfA1A2 homologues from these five selected isolates revealed that the isolates belonged to the genus Rhodococcus, Terrabacter or Janibacter and that they shared 99–100% conserved dbfA1A2 homologues. We investigated the genetic organizations flanking the dbfA1A2 homologues and showed that the minimal conserved DNA region present in all five selected isolates consisted of an ≈9.0-kb region and that their outer regions became abruptly non-homologous. Among them, Rhodococcus sp. strain DFA3 possessed not only the 9.0-kb region but also the 6.2-kb region containing dbfA1A2 homologues. Sequencing of their border regions suggested that some genetic rearrangement might have occurred with insertion sequence-like elements. Also, within their conserved regions, some insertions or deletions were observed.

Insertion sequence-like elements associated with putative polyhydroxybutyrate regulatory genes in Azotobacter sp. FA8

The genes phaR, phaP, and phaF, encoding putative regulatory proteins, were found in the poly (3-hydroxybutyrate) (PHB) gene cluster of the free nitrogen-fixing bacteria Azotobacter sp. FA8. These genes were flanked by the insertion sequence IS Azsp1, belonging to the IS 3 family, and a region highly homologous to insertion sequences of the IS 630 family. These are the first site-specific recombination elements to be described in association with genes involved in the metabolism of polyhydroxyalkanoates (PHAs). A possible role for ISs in the assembly of pha genes is presented.

ISMh2, a Novel Insertion Sequence-like Element Associated with nifA from Mesorhizobium huakuii

Sequence analysis of the nifA gene, including its 5′ flanking region, of Mesorhizobium huakuii revealed the presence of a novel IS-like element called ISMh2. It is 828 bp in length and possesses two imperfect terminal inverted repeats of 14 bp with only one mismatch. The putative transposase encoded by ISMh2 is composed of 204 amino acids. In comparison with other insertion sequences ISMh2 likely belongs to the IS6 family. Multiple copies of ISMh2 were detected in the genome of M. huakuii 159 by Southern hybridization. RT-PCR analysis showed that nifA and ISMh2 cotranscribed. Attempts to detect the transposition ability of ISMh2 were unsuccessful.

Isolation and diagnostic potential of IS Mav2, a novel insertion sequence-like element from Mycobacterium avium subspecies paratuberculosis

A novel Mycobacterium avium ssp. paratuberculosis ( M. paratuberculosis) specific insertion sequence has been identified by representational difference analysis and designated as IS Mav2. IS Mav2 has no similarity to known mycobacterial IS elements but shows more than 50% identity to a non-composite transposon of Streptomyces coelicolor at the DNA and protein level. IS Mav2 is present in at least three copies on the genome as assessed by Southern blot analysis and its potential value as a diagnostic tool was confirmed by PCR analyses on 79 M. paratuberculosis field isolates, nine M. avium ssp. avium isolates, and the reference strains of nine other mycobacterial species.

Genetic characterization of DNA region containing the trh and ure genes of Vibrio parahaemolyticus.

We have demonstrated that possession of the gene for thermostable direct hemolysin-related hemolysin (trh) coincides with the presence of the urease gene among clinical Vibrio parahaemolyticus strains and that the location of the two genes are in close proximity on the chromosome. Here, we cloned and sequenced the 15,754-bp DNA region containing the trh gene and the gene cluster for urease production from the chromosome of clinical V. parahaemolyticus (TH3996). We found 16 open reading frames (ORFs) and a lower G+C content (41%) compared with the total genome of this bacterium (46 to 47%). The ure cluster consisted of eight genes, namely, ureDABCEFG and ureR. ureR was located 5.2 kb upstream of the other seven genes in the opposite direction. The genetic organization and sequences of the ure genes resembled those found in Proteus mirabilis. Between ureR and the other ure genes, there were five ORFs, which are homologous with the nickel transport operon (nik) of Escherichia coli. We disrupted each of the ureR, ureC, and nikD genes in TH3996 by homologous recombination and analyzed the phenotype of the mutants. In the presence of urea these mutant strains had dramatically less urease activity than the strain they were derived from. Disruption of ureR, nikD, or ureC, however, had no effect on TRH production. The DNA region containing the trh, nik, and ure genes was found in only trh-positive strains and not in Kanagawa phenomenon-positive and environmental V. parahaemolyticus strains. At the end of the region, an insertion sequence-like element existed. These results suggest that the DNA region was introduced into V. parahaemolyticus in the past through a mechanism mediated by insertion sequences. This is the first reported case that the genes for an ATP-binding cassette-type nickel transport system, which may play a role in nickel transport through bacterial cytoplasmic membrane, are located adjacent to the ure cluster on the genome of an organism.

Distribution of insertion sequence-like element IS1272 and its position relative to methicillin resistance genes in clinically important Staphylococci.

The distribution of insertion sequence-like element IS1272 was analyzed for clinical isolates of Staphylococcus aureus, Staphylococcus epidermidis, and Staphylococcus haemolyticus. In each of the staphylococcal species, IS1272 was detected in both methicillin-resistant (MR) and methicillin-susceptible strains of different genetic types. In MR isolates, IS1272 was generally located downstream of the truncated mecR1 gene (DeltamecR1), with an identical junction sequence occurring between DeltamecR1 and IS1272, although insertion of an additional gene sequence in the junction sequence was detected in one S. epidermidis isolate. These findings suggest that the mec element with the rearranged form of mecR1 (DeltamecR1-IS1272) has been transmitted to multiple clones of staphylococci.

Biochemical diversity of Mycoplasma fermentans strains

In this study, the metabolism of a diverse range of Mycoplasma fermentans strains was investigated. It was shown that the ability to utilise glucose, fructose and N-acetylglucosamine differentiated strains, and that the patterns and kinetics of substrate utilisation were correlated with the site of isolation, i.e. joint fluid, respiratory tract, urinary tract or cell culture. Interestingly, isolates from the urogenital tract of AIDS patients used fructose in preference to glucose. There was also some correlation of fructose and N-acetylglucosamine utilisation of isolates with M. fermentans sub-groups, identified in an independent study, and based on the distribution of insertion sequence-like elements in the M. fermentans genome.

Nucleotide sequence of IS 1542, an insertion sequence identified within VanA glycopeptide resistance elements of enterococci

IS 1542 is an insertion sequence-like element which was originally identified in the orf2-vanR intergenic region of VanA resistance elements of glycopeptide-resistant Enterococcus faecium from hospital patients and from non-human sources in the UK. The nucleotide sequence of IS 1542 was determined. It showed 81% homology with IS 256 and contained an open reading frame sufficient to encode a 390 amino acid peptide predicted to have 87.2% identity with the transposase of IS 256. By PCR, IS 1542 was detected in the genomes of 26 of 28 (93%) VanA enterococci isolated from poultry in the UK and Ireland, but in only two of 65 (3%) glycopeptide-sensitive or VanC enterococci from hospital patients in the UK and Brazil. IS 1542 may be a useful marker for evolutionary and epidemiological studies of VanA glycopeptide resistance in enterococci.

Nucleotide sequence of IS1542, an insertion sequence identified within VanA glycopeptide resistance elements of enterococci.

IS1542 is an insertion sequence-like element which was originally identified in the orf2-vanR intergenic region of VanA resistance elements of glycopeptide-resistant Enterococcus faecium from hospital patients and from non-human sources in the UK. The nucleotide sequence of IS1542 was determined. It showed 81% homology with IS256 and contained an open reading frame sufficient to encode a 390 amino acid peptide predicted to have 87.2% identity with the transposase of IS256. By PCR, IS1542 was detected in the genomes of 26 of 28 (93%) VanA enterococci isolated from poultry in the UK and Ireland, but in only two of 65 (3%) glycopeptide-sensitive or VanC enterococci from hospital patients in the UK and Brazil. IS1542 may be a useful marker for evolutionary and epidemiological studies of VanA glycopeptide resistance in enterococci.

IS195, an insertion sequence-like element associated with protease genes in Porphyromonas gingivalis.

Porphyromonas gingivalis is recognized as an important etiologic agent in adult and early-onset periodontal disease. Proteases produced by this organism contribute to its virulence in mice. Protease-encoding genes have been shown to contain multiple copies of repeated nucleotide sequences. These conserved sequences have also been found in hemagglutinin genes. In the process of studying the genetic loci containing the conserved repeated sequences, we have characterized a prtP gene homolog from P. gingivalis W83 encoding a cysteine protease with Lys-X specificity. However, this prtP gene was interrupted by an insertion sequence-like element which we designated IS195. Furthermore, IS195 and another element, IS1126, were present downstream of prtP gene homologs (kgp) found in P. gingivalis H66 and 381. IS195, a 1,068-bp insertion sequence-like element, contained 11-bp inverted repeats at its termini and was bordered by 9-bp direct repeats presumed to be a transposition-mediated target site duplication. Its central region contained one large open reading frame encoding a predicted 300-amino-acid protein which appeared to be a transposase. We isolated two naturally occurring variants of P. gingivalis W83, one carrying IS195 within the coding region of the prtP gene and another containing an intact prtP gene. Biochemical characterization revealed a lack of trypsin-like Lys-X specific proteolytic activity in the P. gingivalis W83 variant carrying the disrupted prtP gene. Studies using a mouse model revealed a reduction of virulence resulting from insertion of IS195 into the coding region of the prtP gene. An allelic-exchange mutant defective in the prtP gene also was constructed and tested in vivo. It displayed intermediate virulence compared to that of the wild-type and prtP::IS195 mutant strains. We conclude that the Lys-X cysteine protease contributes to virulence in soft tissue infections.

Variability in the distribution and composition of insertion sequence-like elements in strains of Mycoplasma fermentans.

Mycoplasma fermentans has been reported to be pathogenic for man. All fourteen strains tested contain an insertion sequence-like element (ISLE) which may be present in multiple copies. To determine whether ISLE copies are similarly distributed in different strains of M. fermentans, restriction enzyme digest fragments of genomic DNA from 14 isolates, from a variety of sources, were separated by electrophoresis, blotted and hybridized to a biotin labelled polymerase chain reaction (PCR) amplified fragment of ISLE. A range of patterns was observed suggesting that the element has a tendency to undergo rearrangement within the genome. Analysis of ISLE sequences revealed inter- and intra-strain polymorphisms.

Variability in the distribution and composition of insertion sequence-like elements in strains of Mycoplasma fermentans

Mycoplasma fermentans has been reported to be pathogenic for man. All fourteen strains tested contain an insertion sequence-like element (ISLE) which may be present in multiple copies. To determine whether ISLE copies are similarly distributed in different strains of M. fermentans, restriction enzyme digest fragments of genomic DNA from 14 isolates, from a variety of sources, were separated by electrophoresis, blotted and hybridized to a biotin labelled polymerase chain reaction (PCR) amplified fragment of ISLE. A range of patterns was observed suggesting that the element has a tendency to undergo rearrangement within the genome. Analysis of ISLE sequences revealed inter- and intra-strain polymorphisms.

Use of a novel approach, termed island probing, identifies the Shigella flexneri she pathogenicity island which encodes a homolog of the immunoglobulin A protease-like family of proteins.

The she gene of Shigella flexneri 2a, which also harbors the internal enterotoxin genes set1A and set1B (F. R. Noriega, GenBank accession no. U35656, 1995) encodes a homolog of the virulence-related immunoglobulin A (IgA) protease-like family of secreted proteins, Tsh, EspC, SepA, and Hap, from an avian pathogenic Escherichia coli, an enteropathogenic E. coli, S. flexneri 5, and Haemophilus influenzae, respectively. To investigate the possibility that this locus was carried on a larger deletable element, the S. flexneri 2a YSH6000T she gene was insertionally disrupted by allelic exchange using a Tn10-derived tetAR(B) cassette. Then, to detect loss of the she locus, the tetracycline-resistant derivative was plated onto fusaric acid medium to select for tetracycline-sensitive revertants, which were observed to arise at a frequency of 10(-5) to 10(-6). PCR and pulsed-field gel electrophoresis analysis confirmed loss of the she::tetAR(B) locus in six independent tetracycline-sensitive isolates. Sample sequencing over a 25-kb region flanking she identified four insertion sequence-like elements, the group II intron-like sequence Sf.IntA, and the 3' end of a second IgA protease-like homolog, sigA, lying 3.6 kb downstream and in an orientation inverted with respect to she. The deletion was mapped to chromosomal NotI fragment A and determined to have a size of 51 kb. Hybridization with flanking probes confirmed that at least 17.7 kb of the 51-kb deletable element was unique to the seven she+ strains investigated, supporting the conclusion that she lay within a large pathogenicity island. The method described in this study, termed island probing, provides a useful tool to further the study of pathogenicity islands in general. Importantly, this approach could also be of value in constructing safer live attenuated bacterial vaccines.