The Transposon-Like Structure of IS26-Tetracycllne,and Kanamycin Resistance Determinant Derived from Transferable R Plasmid of Fish Pathogen,Pasteurella piscicida

Tetracycline (pp-tet), and kanamycin (pp-kan) resistance genes were cloned from a transferable R plasmid of fish pathogen Pasteurella piscicida, and complete nucleotide sequences were determined. The pp-tet was a class D Tet determinant constructed with the tetA resistance gene of 1,182 bp encoding a protein with a deduced molecular mass of 41 kDa and the tetR repressor gene of 654 bp encoding a product of 24 kDa. The pp-tet was highly homologous to the tet(D) of plasmid RA1 isolated from Aeromonas hydrophila with two nucleotide differences in the tetR, and of plasmid pIP173 from Salmonella ordonez with two nucleotide differences in the tetA. The pp-kan contained 813 bp encoding a 31 kDa protein of 271 amino acids, and was classified into type aph-Ic. It was identical to the aphA7 in the IAB operon of pBWH77, in which was originally found an isolate of Klebsiella pneumoniae, in its nucleotide sequences and hybrid promoter construction. The genes were connected by an insertion sequence IS 26 of 820 bp, and were flanked by repeated copies in direct orientation at the 3′ flanking region of the pp-tetA and in inverted orientation at the 3′ flanking region of the pp-kan. The genetic elements are organized like a complex transposon by close linkage of the IS 26 and the pp-tet and -kan.     

Comparison of the virulence plasmid genomes of two strains of Shigella which lost the ability to bind Congo red

We determined and analyzed the Shigella flexneri serotype 5 (pSF5) and S. dysenteriae serotype 1 (pSD1) virulence plasmid genomes. The total length of pSF5 is 136513 bp, including 165 open reading frames (ORFs). Of these ORFs, 133 were identified and 32 of those had no significant homology to proteins with known functions. The length of pSD1 is 182545 bp, including 224 ORFs, of which we identified 181. The remaining 43 ORFs were not significantly homologous to proteins with known functions. The insertion sequence (IS) elements are 53787 bp in pSF5, and 49616 bp in pSD1, which represents 39.4% and 27.1% of the genome, respectively. There are 22 IS element types in pSF5 and pSD1, among which we report ISEc8 and ISSbo6 for the first time in the Shigella virulence plasmid. Compared to pCP301, there are a large number of deleted genes and gene inversions in both pSF5 and pSD1. The ipa-mxi-spa locus in pSF5 is completely absent, and the genes related to the O-antigen biosynthesis are partially missing. In contrast, the above genes in pSD1 are integral, with the exception of virF. The whole genome analysis of the two plasmids shows that the loss of genes related to gene invasion or regulation also obliterates the ability of pPF5 and pSD1 to bind Congo red (Crb). Whether these genes determine the Crb function requires continued investigation.     

Comparison of the virulence plasmid genomes of two strains of Shigella which lost the ability to bind Congo red

As an enteric pathogen and Gram negative bacte-rium, Shigella possesses high infectivity and leads to serious illness. Since its discovery in 1898 by Shiga, Shigella species have been studied widely. These studies have elucidated the Shigella pathogenicit…     

Conjugal transfer and mobilization capacity of the completely sequenced naphthalene plasmid pNAH20 from multiplasmid strain Pseudomonas fluorescens PC20

The complete 83 042-bp nucleotide sequence of the IncP-9 naphthalene degradation plasmid pNAH20 from Pseudomonas fluorescens PC20 exhibits striking similarity in size and sequence to another naphthalene (NAH) plasmid pDTG1. However, the positions of insertion sequence (IS) elements significantly alter both catabolic and backbone functions provided by the two plasmids. In pDTG1, insertion of a pCAR1 IS Pre1 -like element disrupts expression of the lower naphthalene operon and this strain utilizes the chromosomal pathway for complete naphthalene degradation. In pNAH20, this operon is intact and functional. The transfer frequency of pNAH20 is 100 times higher than that of pDTG1 probably due to insertion of the pCAR1 IS Pre2 -like element into the mpfR gene coding for a putative repressor of the mpf operon responsible for mating pilus formation. We also demonstrate in situ plasmid transfer – we isolated a rhizosphere transconjugant strain of pNAH20, P. fluorescens NS8. The plasmid pNS8, a derivative of pNAH20, lacks the ability to self-transfer as a result of an additional insertion event of IS Pre2 -like element that disrupts the gene coding for VirB2-like major pilus protein MpfA. The characteristics of the strain PC20 and the conjugal transfer/mobilization capacity of pNAH20 (or its backbone) make this strain/plasmid a potentially successful tool for bioremediation applications.     

Complete DNA sequence and gene analysis of the virulence plasmid pCP301 of Shigella flexneri 2a

Bacteria Shigella spp. are highly contagious, severely harmful and gram-negative facultative intracellular pathogens. They may cause shigellosis characterized by fever, dehydration and hematochezia in clinic, and shigellosis has been remaining a leading cause of infant mortality in the world. Shigella belongs to the family Enterobacteriaceae and the group Escherichiaeae, which are divided into four species and at least 47 serotypes: Shigella dysenteriae (13 serotypes), Shigella flexneri (15 …     

The Staphylococcal Insertion Sequence IS257Is Active

The plasmid pJ3356 confers high-level mupirocin resistance on a strain of Staphylococcus aureus isolated from a hospital. The plasmid also carries two copies of IS257. Recombination of an IS257-containing plasmid conferring erythromycin resistance, pOX7-IS, into either of the IS257s of pJ3356 has been observed. The co-integration of pJ3356 and a small plasmid, pOX7, is also reported and involves duplication of one of the IS257s from pJ3356 together with 8 bp of pOX7 at the site of integration. Thus IS257 has been shown to be an active mobile genetic element.     

IS30, a new insertion sequence of Escherichia coli K12

Summary Three independent spontaneous mutations of prophage P1 affecting the ability of the phage to reproduce vegetatively are due to the insertion of a mobile genetic element, called IS 30. The same sequence is also carried in the R plasmid NR 1-Basel, but not in the parental plasmid NR 1. Southern hybridisation study indicates that the Escherichia coli K 12 chromosome carries several copies of IS 30 as a normal resident. IS 30 is 1.2 kb long and contains unique restriction cleavage sites for Bg/II, ClaI, HindIII, NciI and HincII, and it is cleaved twice by the enzymes HpaII and TaqI. The ends of IS 30 are formed by 26 bp long inverted repeats with 3 bases mismatched. Upon transposition IS 30 generates a duplication of only 2 bp of the target. The following observations suggest a pronounced specificity in target selection by IS 30. In transposition to the phage P 1 genome a single integration site was used three times independently, and in both orientations. A short region of sequence homology has been identified between the P 1 and NR 1-Basel insertion sites. IS 30 has mediated cointegration as well as deletion. The entire IS 30 sequences were duplicated in the cointegrates between a pBR 322 derivative containing IS 30 and the genome of phage P 1–15, and several loci on the P1–15 genome served as fusion sites, some of which were used more than once.     

The Salmonella wien virulence plasmid pZM3 carries Tn1935, a multiresistance transposon containing a composite IS1936-kanamycin resistance element

Tn1935, a 23.5-kb transposon mediating resistance to ampicillin, kanamycin, mercury, spectinomycin, and sulfonamide was isolated from pZM3, an IncFIme virulence plasmid from Salmonella wien. Tn1935 possesses the entire sequence of Tn21 and contains two additional DNA segments of 0.95 and 2.7 kb carrying the ampicillin and kanamycin resistance genes, respectively. The latter is part of a composite element since it is flanked by two IS15-like insertion sequences (IS1936) in direct orientation. IS1936 is about 800 bp long and is closely related to IS15 delta, IS26, IS46, IS140, and IS176. Functional analysis of IS1936-mediated cointegrates shows that both insertion sequences are active and able to form cointegrates at the same frequency. Resolution of the cointegrates requires the presence of the host Rec system. The presence of the composite IS1936-element within Tn1935 supports the hypothesis that multidrug resistance transposons evolved by insertion of antibiotic determinants which are themselves transposable.     

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 istA gene of insertion sequence IS21 is essential for cleavage at the inner 3'' ends of tandemly repeated IS21 elements in vitro.

The bacterial 2.1 kb insertion sequence IS21 occurs as a tandem repeat [=(IS21)2] on the broad host range plasmid R68.45. In (IS21)2, the two IS21 elements are separated by 3 bp termed junction sequence. Plasmids carrying (IS21)2 form cointegrates with other replicons at high frequencies. The two IS21 genes, istA and istB, were found to be necessary for cointegrate formation in vivo. Since the outer ends of (IS21)2 are dispensable for cointegrate formation, we favor a transposition model according to which a plasmid carrying (IS21)2 is cleaved at the junction sequence; the opened plasmid is then inserted into a target replicon. Here we show that Escherichia coli cell extracts, which contained over-produced IstA protein, nicked a supercoiled (IS21)2 plasmid precisely at the inner 3' termini of IS21; the resulting staggered cut generated 5' protrusions. The istA gene, but not the istB gene, was required for in vitro cleavage of an IS21-IS21 junction. Because of this cleavage and our previous findings (generation of 4 bp target duplications and loss of the junction sequence after cointegrate formation in vivo) we propose that plasmids with (IS21)2 produce cointegrates by a mechanism which involves joining of the inner 3' ends of IS21 to the 5' ends of the target.     

The Sinorhizobium meliloti insertion sequence (IS) elements ISRm102F34-1/ISRm7 and ISRm220-13-5 belong to a new family of insertion sequence elements

The Sinorhizobium meliloti insertion sequence (IS) elements ISRm102F34-1 and ISRm220-13-5 are 1481 and 1550 base pairs (bp) in size, respectively. ISRm102F34-1 is bordered by 15 bp imperfect terminal inverted repeat sequences (two mismatches), whereas the terminal inverted repeat of ISRm220-13-5 has a length of 16 bp (two mismatches). Both insertion sequence elements generate a 6-bp target duplication upon transposition. The putative transposase enzymes of ISRm102F34-1 and ISRm220-13-5 consist of 449 or 448 amino acid residues with predicted molecular weights of 50.7 or 51.3 kDa and theoretical isoelectric points of 10.8 or 11.1, respectively. ISRm102F34-1 is identical in 98.9% of its nucleotide sequence to an apparently inactive copy of an insertion sequence element, designated ISRm7, which flanks the left-end of the nodule formation efficiency (nfe) region of plasmid pRmeGR4b of S. meliloti strain GR4. ISRm102F34-1 and ISRm220-13-5 are closely related since they show an overall identity of 57.0% at the nucleotide sequence level and of 47.3% at the deduced amino acid level of their putative transposases. Both insertion sequence elements displayed significant similarity to the Xanthomonas campestris ISXc6 and its homolog IS1478a. Since none of these insertion sequence elements could be allocated to existing families of insertion sequence elements, a new family is proposed. Analysis of the distribution of ISRm102F34-1/ISRm7 in various local S. meliloti populations sampled from Medicago sativa, Medicago sphaerocarpa and Melilotus alba host plants at different locations in Spain revealed its presence in 35% of the isolates with a copy number ranging from 1 to 5. Furthermore, ISRm102F34-1/ISRm7 homologs were identified in other rhizobial species.     

Complete DNA sequence and gene analysis of the virulence plasmid pCP301 of <Emphasis Type="Italic">Shigella flexneri</Emphasis> 2a

The complete nucleotide sequence and organization of the large virulence plasmid pCP301 (termed by us) of Shigella flexneri 2a strain 301 were determined and analyzed. The result showed that the entire DNA sequence of pCP301 is composed of 221618 bp which form a circular plasmid. Sequence analysis identified 272 open reading frames (ORFs), among which, 194 correspond to the proteins described previously, 61 have low identity (<60%) to known proteins and the rest 17 have no regions of significant homology with proteins in database. The genes of pCP301 mainly include the genes associated with bacterial virulence, the genes associated with regulation and the genes relating to plasmid maintenance, stability and DNA metabolism. Insertion sequence (IS) elements are 68 kb in length and account for 30 percent of complete sequence of the plasmid which indicates that gene multiple rearrangements of the pCP301 have taken place in Shigella flexneri evolution history. The research result is helpful for interpreting the pathogenesis of Shigella, as well as the genetics and evolution of the plasmid.     

Sequence analysis of the family of penicillinase-producing plasmids of Neisseria gonorrhoeae

The exact nature of the sequence differences between the medically important family of gonococcal penicillinase-producing plasmids has been ascertained. The entire DNA sequence of the Asia-type plasmid, pJD4, demonstrated that it is 7426 bp and contains two direct repeats (DR30) that are implicated in the formation of deletion variant plasmids, such as the Africa-type plasmid. We have identified putative DnaA and IHF binding sites, various open reading frames that are thought to specify functional proteins, and some important DNA sequences involved with conjugative transfer of gonococcal beta-lactamase plasmids. The deletion in the Africa-type plasmid is 1827 bp and one of the DR30 repeats is also missing. The deletion in the Rio-type plasmid and several Toronto-type plasmids was determined to be 2273 bp and the sequence spanning the deletion was identical irrespective of geographic or temporal origin. The &Ncirc;imes-type plasmid is an Africa-type plasmid and also contains an IS5 insertion sequence. Since IS5 has not been identified in gonococcal isolates, we suggest that this sequence may have been inserted after the original gonococcal plasmid was transformed into Escherichia coli. The New Zealand plasmid is an Asia-type plasmid that contains an endogenous tandem duplication of 1883 bp and the direct DR2 is implicated in this duplication. The nature of the defined truncation of Tn2 present in the various plasmids is also discussed.     

Comparison of the virulence plasmid genomes of two strains of Shigella which lost the ability to bind Congo red

We determined and analyzed the Shigella flexneri serotype 5 (pSF5) and S. dysenteriae serotype 1 (pSD1) virulence plasmid genomes. The total length of pSF5 is 136513 bp, including 165 open reading frames (ORFs). Of these ORFs, 133 were identified and 32 of those had no significant homology to proteins with known functions. The length of pSD1 is 182545 bp, including 224 ORFs, of which we identified 181. The remaining 43 ORFs were not significantly homologous to proteins with known functions. The insertion sequence (IS) elements are 53787 bp in pSF5, and 49616 bp in pSD1, which represents 39.4% and 27.1% of the genome, respectively. There are 22 IS element types in pSF5 and pSD1, among which we report ISEc8 and ISSbo6 for the first time in the Shigella virulence plasmid. Compared to pCP301, there are a large number of deleted genes and gene inversions in both pSF5 and pSD1. The ipa-mxi-spa locus in pSF5 is completely absent, and the genes related to the O-antigen biosynthesis are partially missing. In contrast, the above genes in pSD1 are integral, with the exception of virF. The whole genome analysis of the two plasmids shows that the loss of genes related to gene invasion or regulation also obliterates the ability of pPF5 and pSD1 to bind Congo red (Crb). Whether these genes determine the Crb function requires continued investigation. These authors contributed equally to this work.     

Evidence for integration of IS1 and IS10 in recombinant plasmid containing rearrangement hot-spot(rhs) common-shared block(CSB) in Escherichia coli K-12

The integration of IS1 and IS10 was reported in the recombinant plasmid containing the 3070 bp rearrangement hotspot(rhs) common-shared block(CSB) in Escherichia coli K-12. The integration of IS1 was found to be in rhs(CSB) portion, whereas the integration of IS10 was found to be in both rhs(CSB) and vector portions. The bacterial cells containing the recombinant plasmid grew very slowly. But the integration of IS1 or IS10 in rhs(CSB) portion made the host grow rapidly and overgrew the slow-growing population inheriting the recombinant plasmids without IS-sequences. The sites of integration of IS1 and IS10 were different as was judged from restriction endonuclease mapping. These are rare examples of interchromosomal mobilisation of IS1 and IS10 from host chromosome into plasmid.     

The plasmid cloning vector pBR325 contains a 482 base-pair-long inverted duplication

The plasmid pBR325 is a cloning vector constructed in vitro by addition of the chloramphenicol resistance (Cmr) gene of an IS1-flanked transposon to pBR322 (Bolivar, 1978). It is a 5 995 bp plasmid carrying no sequence originating from IS1. DNA-sequence data suggest that its Cmr segment was derived from a Cm transposon longer than Tn9. The plasmid pBR325 carries between the Cmr and Tcr genes a 482 bp sequence which duplicates, in the opposite orientation, a section pf pBR322 located at the end of the tcr gene. The same structure was found in pBR328, a deletion derivative of pBR325 (Soberon et al., 1980). The possible implications of this inverted duplication on cloning experiments are discussed.     

Stability of recombinant plasmids on the continuous culture of Bifidobacterium animalis ATCC 27536

Bifidobacterium animalis ATCC 27536 represents among bifidobacteria a host-model for cloning experiments. The segregational and structural stabilities of a family of cloning vectors with different molecular weights but sharing a common core were studied in continuous fermentation of the hosting B. animalis without selective pressure. The rate of plasmid loss (R) and the specific growth rate difference (delta mu) between plasmid-free and plasmid-carrying cells were calculated for each plasmid and their relationship with plasmid size was studied. It was observed that both R and the numerical value of delta mu increased exponentially with plasmid size. The exponential functions correlating the specific growth rate difference and the rate of plasmid loss with the plasmid molecular weight were determined. Furthermore, the smallest of the plasmids studied, pLAV (4.3-kb) was thoroughly characterized by means of its complete nucleotide sequence. It was found that it contained an extra DNA fragment, the first bifidobacterial insertion sequence characterised, named IS 1999.     

IS15, a new insertion sequence widely spread in R plasmids of gram-negative bacteria

We have shown that the IS15 element, first detected in Salmonella ordonez and previously designated IS1522 (Labigne-Roussel et al. 1981), could transpose, with an approximate frequency of 5 X 10(-5), to various sites of different replicons in an Escherichia coli host deficient for general homologous recombination. Physical mapping with restriction endonucleases of this 1,500 base pairs (bp) transposable module indicated the presence of two, possibly contiguous, directly repeated internal sequences, at least 480 bp in size. IS15 could generate in vivo, by intramolecular recombination between the two direct repeats, IS15-delta, which is 830 bp in size. The reverse transition, IS15-delta to IS15, was not observed. The two related structural forms of IS15 were detected, by Southern hybridization, on plasmids belonging to various incompatibility groups (Inc6-C, I1, 7-M, and Y) isolated from phylogenetically remote pathogenic bacterial genera (Escherichia coli, Salmonella panama, Enterobacter cloacae, and Acinetobacter calcoaceticus). Whereas IS15 could promote its own transposition and transposition of DNA fragments it flanked, IS15-delta resulting from the 670 bp 'clean' deletion and representing the most common natural deletion derivative could only induce replicon fusion. It appears, therefore, that the two structural configurations of IS15 have evolved to play, by transposition, distinct and complementary roles in bacterial evolution.