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.     

Characterization of a cryptic plasmid pM4 from Lactobacillus plantarum M4

A cryptic plasmid from Lactobacillus plantarum M4 isolated from fresh milk, designated as pM4, was sequenced and characterized. It was 3320 bp in length with a G+C content of 38.73 mol%. The plasmid pM4 was predicted to encode three putative ORFs, in which ORF1 shared 99% and 98% homology, respectively, with the Rep proteins of reported plasmids pWCFS101 and pF8801, members of the rolling circle replication (RCR) pC194 family. Sequence analysis revealed a typical pC194 family double strand origin (dso) and a putative single strand origin (sso) located upstream of the rep gene. Mung bean nuclease analysis and Southern hybridization confirmed the presence of single-stranded DNA (ssDNA) intermediates, suggesting that pM4 belongs to the RCR pC194 family. Accumulation of ssDNA in rifampicin-treated strains implied that the host-encoded RNA polymerase was involved in the conversion of ssDNA to double-stranded DNA. Furthermore, the relative copy number of pM4 was estimated to be about 25 in each cell by real-time PCR. The new RCR plasmid would be valuable in constructing cloning vectors for application in the food industry.     

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.     

Characterization and replication properties of the Zymomonas mobilis ATCC 10988 plasmids pZMO1 and pZMO2

The complete nucleotide sequences of two small cryptic Zymomonas mobilis ATCC 10988 plasmids (pZMO1 and pZMO2) were determined. The plasmids showed 67% homology to each other at their nucleotide level. Plasmid pZMO1 was 1651 bp long with 38% G + C content and contained an open reading frame (ORFZMO1) of 1044 nucleotides. ORFZMO1 is predicted to encode a polypeptide of 348 amino acids and shows a high degree of homology with gram-negative replication proteins of rolling circle replicating plasmids, which belong to the pC194/pUB110 family. Plasmid pZMO2 was found to be 1669 bp long, with a 38.5% G + C content, and it contained an ORF of 552 nucleotides (ORFZMO2) encoding a putative polypeptide of 184 amino acids. This polypeptide also shows a high degree of homology with the replication proteins of RCR plasmids of gram-negative bacteria, but only at their N-termini. The region necessary for replication of both plasmids was determined by stability tests under nonselective conditions, following cloning in pBR325 and introduction in Z. mobilis ATCC 10988 by pRK2013 assisted conjugation. Double- and single-strand origin regions were predicted by sequence analysis. Detection of single-stranded DNA in the extract of exponentially growing cells confirmed experimentally the rolling circle replication mode of at least pZMO2.     

Characterization of a cryptic plasmid pPZZ84 from Bacillus pumilus

The complete nucleotide sequence of a cryptic plasmid pPZZ84 from Bacillus pumilus strain ZZ84 was determined. Plasmid pPZZ84 is 6817 bp long with GC content of 36.7%. Seven putative open reading frames were identified. ORF7 shows 91% and 90% amino acid identity with rep proteins of pSH1452 and pPL1, respectively, members of rolling-circle replication (RCR) pC194-family. A typical pC194-family double strand origin (dso), a single-stranded origin (sso) and rap (regulator aspartate phosphatase) proteins were also identified in the plasmid. These results imply that pPZZ84 belongs to the Bacillus subtilis species group of small rolling circle (BsSRC) replicating plasmids. The plasmid copy number of pPZZ84 in B. pumilus ZZ84 was estimated to be 46 per cell, more than that of other BsSRC plasmids in their hosts.     

Isolation and characterization of two novel plasmids pCYM01 and pCYM02 of Cylindrospermum stagnale

Cyanobacteria play a vital role in supplying nitrogen into the soil and aquatic ecosystem. It has an extra chromosomal DNA, whose role is not yet defined well. Isolation and characterization of extra chromosomal DNA in cyanobacteria might help to understand its survival mechanism. Cylindrospermum stagnale isolated (and deposited in NRMCF 3001) from soil showed presence of four plasmids namely pCYLM01, pCYLM02, pCYLM03, and pCYLM04. The following plasmids pCYLM01 and pCYLM02 were subjected to restriction digestion using HindIII restriction enzyme and cloned into pBlueScriptSK(-) vector. The sequence of pCYLM01 contained 4 potential open reading frames (ORFs) that have amino acids in the range of 59–299. Among them, ORF1 shows high sequence homology to the bacterial replication initiator family protein as evident from BLASTP analysis. The analysis of 4359 bp plasmid pCYLM02 sequence revealed 7 ORFs which are longer than 50 amino acids in length. The ORF2 of pCYLM02 has 243 amino acids and is represented in the plasmid sequence from 3045 to 3776 bp. The ORF3 of pCYLM02 corresponds to the plasmid sequence from 2323 to 2976 and codes for a putative protein of 217 amino acids long. A number of small ORFs below 50 bp were also found in the sequence analysis.     

Complete nucleotide sequence of a cryptic plasmid, pbaw301, from the ruminai anaerobe Ruminococcus flavefaciens R13e2

Abstract The complete nucleotide sequence of a cryptic plasmid designated pBAW301, from the Gram-positive ruminai bacterium Ruminococcus flavefaciens R13e2, has been determined. This plasmid is 1768 bp in size and has an overall G+C content of 43.5%. Computer analysis of the sequence data revealed an open reading frame, ORF1 (256 amino acids), which is similar to the Rep protein of the Bacillus borstelensis plasmid pHT926. ORF1 is preceded by Shine-Dalgarno and Escherichia coli —10 and —35 like sequences. Nine smaller open reading frames showed no significant homologies to known protein sequences. Analysis of replication intermediates and the nucleotide sequence indicate that the plasmid does not replicate by a rolling-circle mode of replication similar to other plasmids from Gram-positive bacteria. Moreover, sequences typical of theta replication origins were not found in the nucleotide sequence of pBAW301. These data suggest that this plasmid either replicates by an as yet undescribed mechanism, or represents a new class of theta replicating plasmids.     

Complete nucleotide sequence and characterization of pSNA1 from pimaricin-producing Streptomyces natalensis that replicates by a rolling circle mechanism

A cryptic plasmid, pSNA1, has been identified in the pimaricin-producing Streptomyces natalensis strain ATCC 27448. pSNA1 has been mapped with restriction endonucleases and its complete nucleotide sequence was determined. The circular DNA molecule is 9367 bp in length and has a 71.3% G+C content. Its estimated copy number is 30. Analysis of the sequence and codon preferences indicated that pSNA1 contains seven open reading frames [encoding peptides larger than 90 amino acid (aa) residues], ORF 1 to ORF 7, located on both strands of pSNA1. ORF 3 codes for a protein (476 aa) that shows high sequence similarity to replication-associated proteins in Streptomyces plasmids known to replicate via the rolling circle mechanism. Accumulation of single-strand intermediates further indicates that pSNA1 replicates via the rolling circle replication model. ORF 1 encodes a polypeptide of 246 aa that shares homology with KorA proteins encoded by other streptomycete plasmids. ORF 4 (SpdA) codes for a protein (161 aa) possibly involved in intramycelial plasmid transfer. Protein encoded by ORF 2 (309 aa) shares homology with a Streptomyces protein (SpdB2) also involved in plasmid spreading.     

Characterization of a small cryptic plasmid,pHP51, from a Korean isolate of strain 51 of Helicobacter pylori

The nucleotide sequence of a 3955-bp Helicobacter pylori plasmid, pHP51 was determined, and two open reading frames, ORF1 and ORF2, were identified. The deduced amino acid sequence of ORF1 was highly conserved (87-89%) among plasmid replication initiation proteins, RepBs. The function of ORF2 was not assigned because it lacked known functional domains or sequence similarity with other known proteins, although it had a HPFXXGNG motif that was also found in the cAMP-induced filamentation (fic) gene. Three kinds of repeats were present on the plasmid outside of the ORFs, including the R1 and R2 repeats that are common in H. pylori plasmids. One 100-bp sequence detected in the noncoding region of pHP51 was highly similar to the genomic sequence of H. pylori 26695.     

Molecular characterisation of a 5.75-kb cryptic plasmid from Bifidobacterium breve NCFB 2258 and determination of mode of replication

A small cryptic plasmid originating from Bifidobacterium breve NCFB 2258 was cloned and its complete nucleotide sequence determined. pCIBb1 is a circular DNA molecule, 5750 bp in size with a GC composition of 57%. Computer-assisted analysis identified 10 possible open reading frames (ORFs), seven of which could be assigned no function from homology searches. One ORF, rep (380 amino acids), was postulated to encode a replication protein similar to known replication proteins of rolling circle replicons, particularly those of the pC194 family. Demonstration of single-stranded forms of the plasmid in cell lysates that could be specifically degraded by S1 nuclease provided experimental evidence to substantiate a replication mechanism via single-stranded intermediates. Two other ORFs, par (199 amino acids) and an ftsK-like gene (286 amino acids), were assigned putative functions based on the presence of conserved motifs in their deduced proteins.     

Identification and nucleotide sequence of the minimal replicon of the low-copy-number plasmid pBS2

The plasmid pBS2 has a low copy number and is endogenous to Bacillus subtilis. The replication of this plasmid depends on the function of most of the host's dna genes including dnaB, which is unique to B. subtilis and is required for both the initiation of chromosome replication and the DNA-membrane association. We have identified the region that is essential for the replication of pBS2 and determined the complete 2279-bp nucleotide sequence of this region. In this region, there are two stretches of sequence homologous to the 18-bp consensus sequence which commonly appears at the origin of replication of plasmids pUB110 and pC194. The entire region contains six sizable open reading frames. Two of them are probably translated. One open reading frame, designated ORF A, coding for 269 amino acids, has significant homology, in terms of amino acid sequence, with the open reading frame of the gene for the Rep U protein of plasmid pUB110. The similarities between pBS2 and other plasmids suggest that the pBS2 may also replicate as a rolling circle, which appears to be the salient feature of a mechanism of replication that is common to small plasmids in gram-positive bacteria.     

Complete Sequence of Plasmid pMP1 from the Marine Environmental Vibrio vulnificus and Location of Its Replication Origin

A novel cryptic plasmid, pMP1, from an environmental Vibrio vulnificus MP-4 isolated from Mai Po Nature Reserve in Hong Kong, has been characterized. The 7.6-kb plasmid had guanine–cytosine content of 40.03% and encoded four open reading frames (ORFs) with >100 amino acids. The predicted protein of ORF1 contained 478 amino acids showing 29% identity and 50% similarity over 309 amino acids to the integrase of Vibrio cholerae phage VP2. ORF2 encoded a putative protein of 596 amino acids, which were 23% identity and 42% similarity over 455 amino acids to the tail tape measure protein TP901 of Chromohalobacter salexigens phage. ORF3 and ORF4 encoded putative proteins of 103 and 287 amino acids, respectively, but showed no homologies to any known proteins. Further experiments indicated that a 3.2-kb fragment from EcoRI digestion could self-replicate. Analysis indicated that a sequence upstream of ORF4 had the features characteristic of theta-type replicons: AT-rich region, six potential direct repeats (iterons) spaced approximately two DNA helical turn apart (about 23 bp), two copies of 9 bp dnaA boxes, three Dam methylation sites, and five inverted repeats. Complementation experiments confirmed that the protein encoded by ORF4 was required for plasmid replication. We propose that ORF4 encode a new type of Rep protein and pMP1 is a new type of theta plasmid.     

Structural organization of pLP1, a cryptic plasmid from Lactobacillus plantarum CCM 1904

To construct shuttle vectors based on an endogenous replicon, we isolated a small cryptic plasmid (pLP1) from Lactobacillus plantarum CCM 1904. The nucleotide sequence (2093 bp, 38.25 GC mol%) revealed one major open reading frame encoding for a 317 amino acid protein (Rep). Comparisons with proteins encoded by other Gram-positive bacteria plasmids strongly suggest that the protein encoded by pLP1 has a replicative role. The presence of a consensus sequence including a tyrosine residue known to be the replication protein binding site to the DNA (in phage phi X174) strengthens this hypothesis. The DNA sequence contains also a sequence similar to the pC194 origin nick sequence, which initiates the plasmid replication at the plus origin, characteristic of plasmids which replicate following a rolling circle mechanism via single-stranded DNA intermediates. A set of 13 direct repeats of 17 bp could be involved in the expression of the incompatibility or in the copy number control as in the other plasmids. A promoter sequence located at the rep 5' region has been identified and is functional in Bacillus subtilis.     

Genetic and nucleotide sequence analysis of the gene htdA, which regulates conjugal transfer of IncHI plasmids.

IncHI plasmids are naturally repressed for conjugative transfer and do not allow efficient propagation of the IncH pilus-specific phage Hgal. Transposons Tn7, Tn5, and TnlacZ were inserted into IncHI plasmids R478, R477-1, and R27, respectively, leading to the isolation of several plasmid mutants which exhibited increased levels of transfer and also permitted good lysis with phage Hgal. A 4.3-kb HindIII fragment from R478 reversed both phenotypic effects of derepression for the R477-1::Tn5 and the R478::Tn7 derivatives, pKFW99 and pKFW100, respectively. Exonuclease III deletions of this fragment and nucleotide sequence analysis indicated that the gene responsible for transfer repression, named here htdA, encoded a polypeptide of 150 amino acids. Cloning and sequence analysis of pDT2454 (R27::TnlacZ) revealed that the transposon had inserted into an open reading frame (ORF) which had an 83% amino acid identity with the R478 htdA gene. Maxicell analysis showed both the R27 and R478 HtdA products had molecular masses of 19.9 kDa. Conjugation experiments showed that the cloned htdA determinants caused a significant reduction of the transfer frequencies of wild-type R478 and R27 plasmids. Examination of both R478 derepressed mutants, pKFW100 and pKFW101, indicated that both transposon insertions occurred upstream of the htdA ORF. The results suggest that HtdA is a regulatory component of IncH plasmid transfer and also show that the region upstream of the htdA ORF is involved in transfer repression. The locations of the htdA determinants were identified on the plasmid maps of R27 and R478.     

Characterization of a cryptic plasmid from Bacillus sphaericus strain LP1-G

A cryptic plasmid from Bacillus sphaericus strain LP1-G, designated as pLG, was sequenced and characterized. It was an 11,066bp circular molecule, with G+C content of 37%. The plasmid pLG was predicted to encode 23 putative ORFs, and ORF 21 shared the highest identity with Rep of pGI1 and pBMB9741, members of rolling-circle replication (RCR) pC194-family. Sequence analysis revealed a pC194-type double strand origin (dso) and a single strand origin (sso) like sequence located upstream and downstream of ORF 21, respectively. Moreover, Mung bean nuclease analysis and Southern hybridization confirmed the existence of single stranded DNA (ssDNA) intermediates, indicating that pLG belongs to the RCR pC194-family. Accumulation of multiple ssDNA intermediates in native strain LP1-G and decline of ssDNA and supercoiled DNA in rifampicin-treated strain implied that a special mechanism might be employed by pLG. Furthermore, the copy number of pLG in its original host was determined and about 58 copies of the plasmid exist in each cell. Subcloning and transformation experiments proved that the minimal replicon of pLG was within a 1.6-kb fragment, which was composed of rep gene and dso. These data are a good basis for the understanding of replication mechanisms and genetics of this B. sphaericus plasmid.     

Sequence analysis of the cryptic plasmid pMG101 from Rhodopseudomonas palustris and construction of stable cloning vectors

A 15-kb cryptic plasmid was obtained from a natural isolate of Rhodopseudomonas palustris. The plasmid, designated pMG101, was able to replicate in R. palustris and in closely related strains of Bradyrhizobium japonicum and phototrophic Bradyrhizobium species. However, it was unable to replicate in the purple nonsulfur bacterium Rhodobacter sphaeroides and in Rhizobium species. The replication region of pMG101 was localized to a 3.0-kb SalI-XhoI fragment, and this fragment was stably maintained in R. palustris for over 100 generations in the absence of selection. The complete nucleotide sequence of this fragment revealed two open reading frames (ORFs), ORF1 and ORF2. The deduced amino acid sequence of ORF1 is similar to sequences of Par proteins, which mediate plasmid stability from certain plasmids, while ORF2 was identified as a putative rep gene, coding for an initiator of plasmid replication, based on homology with the Rep proteins of several other plasmids. The function of these sequences was studied by deletion mapping and gene disruptions of ORF1 and ORF2. pMG101-based Escherichia coli-R. palustris shuttle cloning vectors pMG103 and pMG105 were constructed and were stably maintained in R. palustris growing under nonselective conditions. The ability of plasmid pMG101 to replicate in R. palustris and its close phylogenetic relatives should enable broad application of these vectors within this group of alpha-proteobacteria.