Molecular characterization and interstrain variability of pHPS1, a plasmid isolated from the Sydney strain (SS1) of Helicobacter pylori

The 5846-bp circular plasmid pHPS1 of Helicobacter pylori Sydney strain, SS1, was cloned, sequenced, and structurally characterized. The SS1 strain is widely used in animal studies of H. pylori infection. The sequence of pHPS1 revealed three open reading frames (ORFs), all of which are transcribed. Two ORFs encode putative plasmid replication proteins, RepA and RepB, similar to replicases resident on theta plasmids. In contrast, the function of ORF2 remains cryptic due to the absence of sequence similarity with any known protein in sequence databases. In addition, species specificity of these three coding regions was shown using DNA dot blot hybridization in 57 diverse clinical H. pylori isolates and 32 Helicobacter and Campylobacter strains. RepA appears to be the predominant plasmid replication protein of H. pylori and the deduced amino acid sequence was highly conserved (76-96%) in 8 H. pylori isolates, including SS1. RepB was detected in 3 H. pylori isolates examined in this study, 2 of which possess only the repB gene. Analysis of the protein sequences of these two replicases, together with previously characterized H. pylori plasmid replication proteins, supports the formation of a distinct class of H. pylori plasmid proteins. Moreover, comprehensive analysis of the whole genome sequence of H. pylori strain 26695, pHPS1, and other H. pylori plasmid sequences that are available revealed interesting insights as to the occurrence of plasmid-mediated recombination within H. pylori. Common regions between plasmids and chromosome sequences of H. pylori were identified in this study which could only have arisen by genetic recombination, thus providing the first line of evidence, albeit indirectly, of the contribution of H. pylori plasmids in generating an extensive genetic heterogeneity characteristic of this important gastroduodenal pathogen.     

Replication Mechanism and Sequence Analysis of the Replicon of pAW63, a Conjugative Plasmid from Bacillus thuringiensis

A 5.8-kb fragment of the large conjugative plasmid pAW63 from Bacillus thuringiensis subsp. kurstaki HD73 containing all the information for autonomous replication was cloned and sequenced. By deletion analysis, the pAW63 replicon was reduced to a 4.1-kb fragment harboring four open reading frames (ORFs). Rep63A (513 amino acids [aa]), encoded by the largest ORF, displayed strong similarity (40% identity) to the replication proteins from plasmids pAMbeta1, pIP501, and pSM19035, indicating that the pAW63 replicon belongs to the pAMbeta1 family of gram-positive theta-replicating plasmids. This was confirmed by the facts that no single-stranded DNA replication intermediates could be detected and that replication was found to be dependent on host-gene-encoded DNA polymerase I. An 85-bp region downstream of Rep63A was also shown to have strong similarity to the origins of replication of pAMbeta1 and pIP501, and it is suggested that this region contains the bona fide pAW63 ori. The protein encoded by the second large ORF, Rep63B (308 aa), was shown to display similarity to RepB (34% identity over 281 aa) and PrgP (32% identity over 310 aa), involved in copy control of the Enterococcus faecalis plasmids pAD1 and pCF10, respectively. No significant similarity to known proteins or DNA sequences could be detected for the two smallest ORFs. However, the location, size, hydrophilicity, and orientation of ORF6 (107 codons) were analogous to those features of the putative genes repC and prgO, which encode stability functions on plasmids pAD1 and pCF10, respectively. The cloned replicon of plasmid pAW63 was stably maintained in Bacillus subtilis and B. thuringiensis and displayed incompatibility with the native pAW63. Hybridization experiments using the cloned replicon as a probe showed that pAW63 has similarity to large plasmids from other B. thuringiensis subsp. kurstaki strains and to a strain of B. thuringiensis subsp. alesti.     

The ubiquitous plasmid pXap41 in the invasive phytopathogen Xanthomonas arboricola pv. pruni: complete sequence and comparative genomic analysis

The complete DNA sequence of the 41 102-bp plasmid pXap41 from the invasive plant pathogen Xanthomonas arboricola pv. pruni CFBP 5530 was determined and its 44 coding regions were annotated. Comparative analysis with 15 Xanthomonas plasmids and 19 complete genomes revealed that nearly one-fourth of this plasmid has high sequence identity to plasmid pXAC64 and an 8.8-kb chromosomal region of Xanthomonas axonopodis pv. citri strain 306 carrying genes that encode type III effectors and helper proteins. The presence of pXap41 in all X. arboricola pv. pruni genotypes was confirmed for eight strains by plasmid profiling and for 35 X. arboricola pv. pruni isolates with a new plasmid multiplex PCR assay. This plasmid was not detected in any other X. arboricola pathovars (n=12), indicating the potential for the application of the pXap41 PCR method as a pathovar-level detection and identification tool.     

Cloning of a multicopy plasmid from the actinorhizad nitrogen-fixing bacterium Frankia sp. and determination of its restriction map

An 8.3-kb multicopy plasmid, pFQ31, from the nitrogen-fixing Frankia sp. strain ArI3, was cloned into Escherichia coli plasmid vectors and analysed physically. pFQ31 has no detectable sequence homology with another Frankia plasmid, pFQ32, which is present in the same host. Derivatives of pFQ31 with an antibotic resistance marker were introduced into Streptomyces lividans, which is taxonomically related to Frankia, but no stable replication could be achieved.     

Characterization, sequence and mode of replication of plasmid pNB2 from the thermophilic bacterium Clostridium thermosaccharolyticum

 The 1882-bp nucleotide sequence of the cryptic plasmid pNB2 isolated from the thermophilic bacterium Clostridium thermosaccharolyticum was determined. pNB2 DNA has very low GC content (27%) and may serve as a model for studying the modes of maintenance and replication of AT-rich DNA under conditions of thermophilic growth. The plasmid sequence revealed three open reading frames (ORFs) which would encode polypeptides of 289, 68 and 59 amino acids, respectively, and these proteins were synthesized in E. coli extracts primed with the plasmid. We found that the product of ORF289 may be initiated at the non-ATG start codon, TTG, and has similarities with the conserved motifs of Rep proteins encoded by rolling circle (RC) plasmids of the pC194/pUB110 family. Southern hybridization analysis of lysates of C. thermosaccharolyticum cells harboring pNB2 revealed single-stranded intermediates, suggesting that this plasmid is able to replicate in clostridial cells via the RC mechanism. The most significant similarities are found between pNB2 Rep protein and the Rep proteins of three RC plasmids of the pC194 family (pTB913, pBC1 and pST1) isolated from thermophilic bacteria. Comparative analysis of these Rep proteins showed that despite the significant level of divergence, these Rep proteins share a high degree of similarity in the regions of five well-known conserved domains of RC Rep proteins and fall into two groups in accordance with the similarities found in their active sites. Received: 25 April 1996 / Accepted: 20 June 1996     

Sequence analysis of the 181-kb accessory plasmid pSmeSM11b, isolated from a dominant Sinorhizobium meliloti strain identified during a long-term field release experiment

The 181 251 bp accessory plasmid pSmeSM11b of Sinorhizobium meliloti strain SM11, belonging to a dominant indigenous S. meliloti subpopulation identified during a long-term field release experiment, was sequenced. This plasmid has 166 coding sequences (CDSs), 42% of which encode proteins with homology to proteins of known function. Plasmid pSmeSM11b is a member of the repABC replicon family and contains a large gene region coding for a conjugation system similar to that of other self-transmissible plasmids in Rhizobium and Agrobacterium. Another pSmeSM11b gene region, possibly involved in sugar metabolism and polysaccharide catabolism, resembled a region of S. meliloti 1021 megaplasmid pSymB and in the genome of Sinorhizobium medicae WSM419. Another module of plasmid pSmeSM11b encodes proteins similar to those of the nitrogen-fixing actinomycete Frankia CcI3, and which are likely to be involved in the synthesis of a secondary metabolite. Several ORFs of pSmeSM11b were predicted to play a role in nonribosomal peptide synthesis. Plasmid pSmeSM11b has many mobile genetic elements, which contribute to the mosaic composition of the plasmid.     

Molecular analysis of pDL10 from Acidianus ambivalens reveals a family of related plasmids from extremely thermophilic and acidophilic archaea.

The 7598-bp plasmid pDL10 from the extremely thermophilic, acidophilic, and chemolithoautotrophic Archaeon Acidianus ambivalens was sequenced. It contains 10 open reading frames (ORFs) organized in five putative operons. The deduced amino acid sequence of the largest ORF (909 aa) showed similarity to bacterial Rep proteins known from phages and plasmids with rolling-circle (RC) replication. From the comparison of the amino acid sequences, a novel family of RC Rep proteins was defined. The pDL10 Rep protein shared 45-80% identical residues with homologous protein genes encoded by the Sulfolobus islandicus plasmids pRN1 and pRN2. Two DNA regions capable of forming extended stem-loop structures were also conserved in the three plasmids (48-69% sequence identity). In addition, a putative plasmid regulatory protein gene (plrA) was found, which was conserved among the three plasmids and the conjugative Sulfolobus plasmid pNOB8. A homolog of this gene was also found in the chromosome of S. solfataricus. Single-stranded DNA of both pDL10 strands was detected with a mung bean nuclease protection assay using PCR detection of protected fragments, giving additional evidence for an RC mechanism of replication.     

Small cryptic plasmids of Streptococcus pneumoniae belong to the pC194/pUB110 family of rolling circle plasmids

The DNA sequences of two related plasmids pPR1 and pPR3 described previously in Streptococcus pneumoniae isolates from Germany and Spain were now determined. Both plasmids belong to a family of rolling circle (RC) plasmids found in a variety of bacteria. Their GC content with 32% is lower than that of the S. pneumoniae chromosomal DNA. The plasmid pPR3 has a molecular size of 3160 bp with four putative open reading frames, whereas pPR1 contained a deletion of 313 bp that included the 5′-part of ORF2 and upstream regions and differed by three bp from pPR3. The predicted protein of ORF1 showed high similarity to replication proteins of RC plasmids with 74% identical amino acids to RepA of Streptococcus thermophilus plasmids. Sequences similar to the plus origin of replication of ssDNA plasmids were present in both plasmids. They also contained a 152-bp region with over 83% identity to the minus origin of replication of the Streptococcus agalacticae plasmid pMV158.     

A small cryptic plasmid from Ruminobacter amylophilus NIAH-3 possesses functional mobilization properties

The complete nucleotide sequence of a small cryptic plasmid designated pRAO1, from the Gram-negative ruminal bacterium Ruminobacter amylophilus NIAH-3, was determined. The plasmid is a circular DNA molecule, 2140 bp in size, with a GC content of 40%. Computer-assisted analysis identified three open reading frames (ORFs), one of which, ORF3 (347 amino acids), displayed a high degree of amino acid identity with the Mob proteins involved in conjugative mobilization and interplasmid recombination of plasmids from Gram-positive bacteria. We proved the mobilization properties of pRAO1 in the Escherichia coli system using the coresident IncW broad-host-range conjugative plasmid R388. These data demonstrated, for the first time, the mobilization properties of small cryptic plasmids from Gram-negative inhabitants of the rumen.     

Sequence analysis of a cryptic plasmid pCJ419 from Campylobacter jejuni and construction of an Escherichia coli-Campylobacter shuttle vector

A small cryptic plasmid, pCJ419, was identified in a human clinical isolate of Campylobacter jejuni, cloned and sequenced. pCJ419 is a circular molecule of 4013 bp with a G+C content of 27.1%. The products of four open reading frames (ORFs) share significant sequence similarity with putative proteins from known C. jejuni and Campylobacter coli plasmids. ORF-1 encodes a putative mobilisation protein (Mob). ORF-2 and ORF-3 encode proteins that have high identity to putative RepA and RepB proteins, respectively, of known C. jejuni and C. coli plasmids. ORF-4 encodes a protein that has high identity to a hypothetical protein of unknown function, Cjp32, previously described in a pVir plasmid of C. jejuni. Tandem repeating 22-bp sequences typical of a plasmid replication origin (ori) were identified upstream of the DNA sequences encoding putative replication initiation proteins. An Escherichia coli-Campylobacter shuttle cloning vector, pGU0202, was constructed using plasmid pMW2 that harbours a Campylobacter-derived kanamycin resistance gene [aph(3')-III]. The sequences encoding pCJ419 mob, RepA and RepB proteins were inserted upstream of aph(3')-III resulting in a stable construct of 6174 bp that was used to transform both E. coli and Campylobacter.     

Homology of a plasmid from the spirochete Treponema denticola with the single-stranded DNA plasmids.

The 2,647-bp nucleotide sequence of cryptic plasmid pTD1, isolated from the oral spirochete Treponema denticola, was determined. The sequence revealed two open reading frames, A and B, which encode polypeptides of 335 and 235 amino acids, respectively. Open reading frame A shows sequence similarity to genes that encode replication proteins from a group of plasmids common in gram-positive bacteria, which replicate via a single-stranded intermediate.     

Characterization,sequence and mode of replication of plasmid pNB2 from the thermophilic bacterium Clostridium thermosaccharolyticum

The 1882-bp nucleotide sequence of the cryptic plasmid pNB2 isolated from the thermophilic bacterium Clostridium thermosaccharolyticum was determined. pNB2 DNA has very low GC content (27%) and may serve as a model for studying the modes of maintenance and replication of AT-rich DNA under conditions of thermophilic growth. The plasmid sequence revealed three open reading frames (ORFs) which would encode polypeptides of 289, 68 and 59 amino acids, respectively, and these proteins were synthesized in E. coli extracts primed with the plasmid. We found that the product of ORF289 may be initiated at the non-ATG start codon, TTG, and has similarities with the conserved motifs of Rep proteins encoded by rolling circle (RC) plasmids of the pC194/pUB110 family. Southern hybridization analysis of lysates of C. thermosaccharolyticum cells harboring pNB2 revealed single-stranded intermediates, suggesting that this plasmid is able to replicate in clostridial cells via the RC mechanism. The most significant similarities are found between pNB2 Rep protein and the Rep proteins of three RC plasmids of the pC194 family (pTB913, pBC1 and pST1) isolated from thermophilic bacteria. Comparative analysis of these Rep proteins showed that despite the significant level of divergence, these Rep proteins share a high degree of similarity in the regions of five well-known conserved domains of RC Rep proteins and fall into two groups in accordance with the similarities found in their active sites.     

Complete sequencing and diversity analysis of the enterotoxin-encoding plasmids in Clostridium perfringens type A non-food-borne human gastrointestinal disease isolates

Enterotoxin-producing Clostridium perfringens type A isolates are an important cause of food poisoning and non-food-borne human gastrointestinal diseases, e.g., sporadic diarrhea (SPOR) and antibiotic-associated diarrhea (AAD). The enterotoxin gene (cpe) is usually chromosomal in food poisoning isolates but plasmid-borne in AAD/SPOR isolates. Previous studies determined that type A SPOR isolate F5603 has a plasmid (pCPF5603) carrying cpe, IS1151, and the beta2 toxin gene (cpb2), while type A SPOR isolate F4969 has a plasmid (pCPF4969) lacking cpb2 and IS1151 but carrying cpe and IS1470-like sequences. By completely sequencing these two cpe plasmids, the current study identified pCPF5603 as a 75.3-kb plasmid carrying 73 open reading frames (ORFs) and pCPF4969 as a 70.5-kb plasmid carrying 62 ORFs. These plasmids share an approximately 35-kb conserved region that potentially encodes virulence factors and carries ORFs found on the conjugative transposon Tn916. The 34.5-kb pCPF4969 variable region contains ORFs that putatively encode two bacteriocins and a two-component regulator similar to VirR/VirS, while the approximately 43.6-kb pCPF5603 variable region contains a functional cpb2 gene and several metabolic genes. Diversity studies indicated that other type A plasmid cpe+/IS1151 SPOR/AAD isolates carry a pCPF5603-like plasmid, while other type A plasmid cpe+/IS1470-like SPOR/AAD isolates carry a pCPF4969-like plasmid. Tn916-related ORFs similar to those in pCPF4969 (known to transfer conjugatively) were detected in the cpe plasmids of other type A SPOR/AAD isolates, as well as in representative C. perfringens type B to D isolates carrying other virulence plasmids, possibly suggesting that most or all C. perfringens virulence plasmids transfer conjugatively.     

Characterization of transposon Tn5469 from the cyanobacterium Fremyella diplosiphon.

A transposon, designated Tn5469, was isolated from mutant strain FdR1 of the filamentous cyanobacterium Fremyella diplosiphon following its insertion into the rcaC gene. Tn5469 is a 4,904-bp noncomposite transposon with 25-bp near-perfect terminal inverted repeats and has three tandemly arranged, slightly overlapping potential open reading frames (ORFs) encoding proteins of 104.6 kDa (909 residues), 42.5 kDa (375 residues), and 31.9 kDa (272 residues). Insertion of Tn5469 into the rcaC gene in strain FdR1 generated a duplicate 5-bp target sequence. On the basis of amino acid sequence identifies, the largest ORF, designated tnpA, is predicted to encode a composite transposase protein. A 230-residue domain near the amino terminus of the TnpA protein has 15.4% amino acid sequence identity with a corresponding domain for the putative transposase encoded by Lactococcus lactis insertion sequence S1 (ISS1). In addition, the sequence for the carboxyl-terminal 600 residues of the TnpA protein is 20.0% identical to that for the TniA transposase encoded by Tn5090 on Klebsiella aerogenes plasmid R751. The TnpA and TniA proteins contain the D,D(35)E motif characteristic of a recently defined superfamily consisting of bacterial transposases and integrase proteins of eukaryotic retroelements and retrotransposons. The two remaining ORFs on Tn5469 encode proteins of unknown function. Southern blot analysis showed that wild-type F. diplosiphon harbors five genomic copies of Tn5469. In comparison, mutant strain FdR1 harbors an extra genomic copy of Tn5469 which was localized to the inactivated rcaC gene. Among five morphologically distinct cyanobacterial strains examined, none was found to contain genomic sequences homologous to Tn5469.     

Nucleotide sequence and structural analysis of cryptic plasmid pBL90 from <Emphasis Type="Italic">Brevibacterium lactofermentum</Emphasis>

The nucleotide sequence of cryptic plasmid (designated as pBL90) detected in the cells of Brevibacterium lactofermentum DSM 1412 was determined. The length of plasmid DNA is 67826 bp. Comparison of the nucleotide sequence of pBL90 with known plasmid sequences showed no long regions of significant homology. Computer analysis of the plasmid DNA revealed 29 open reading frames (ORFs). The amino acid sequences of 15 ORFs (approximately 25% of plasmid length) have a high (>70%) level of identity to proteins from different plasmids of Corynebacterium representatives, including replicative proteins. Unusual in pBL90 is the presence of replicative genes from two different families and types of replication.