Characterization of pLP18, a novel cryptic plasmid of Lactobacillus plantarum PC518 isolated from Chinese pickle

A cryptic plasmid of Lactobacillus plantarum PC518 isolated from Chinese pickle, designated pLP18, was sequenced and characterized. It is a 1806-bp circular molecule with a G+C content of 37.5%. Sequence analysis of pLP18 revealed three putative open reading frames (ORFs), in which ORF1 contained conserved motifs of pMV158-family Rep proteins and showed 60% similarity with the Rep protein of pPSC22, a member of rolling-circle replication (RCR) pMV158 family. The double strand origin (dso) of pMV158 family and the single strand origin A (ssoA) located upstream of the rep gene. The putative cop and rnaII genes were predicted to be regulatory genes controlling copy number of pLP18. The results of Southern hybridization suggested that pLP18 replicate via the RCR mechanism. Furthermore, the relative copy number of pLP18 was estimated to be about 24 copies per chromosome equivalent by quantitative PCR.     

Conserved sequence motifs in the initiator proteins for rolling circle DNA replication encoded by diverse replicons from eubacteria, eucaryotes and archaebacteria.

An amino acid motif was identified that consists of the sequence HisHydrHisHydrHydrHydr (Hydr--bulky hydrophobic residue) and is conserved in two vast classes of proteins, one of which is involved in initiation and termination of rolling circle DNA replication, or RCR (Rep proteins), and the other in mobilization (conjugal transfer) of plasmid DNA (Mob proteins). Based on analogies with metalloenzymes, it is hypothesized that the two conserved His residues in this motif may be involved in metal ion coordination required for the activity of the Rep and Mob proteins. Rep proteins contained two additional conserved motifs, one of which was located upstream, and the other downstream from the 'two His' motif. The C-terminal motif encompassed the Tyr residue(s) forming the covalent link with nicked DNA. Mob proteins were characterized by the opposite orientation of the conserved motifs, with the (putative) DNA-linking Tyr being located near their N-termini. Both Rep and Mob protein classes further split into several distinct families. Although it was not possible to find a motif or pattern that would be unique for the entire Rep or Mob class, unique patterns were derived for large subsets of the proteins of each class. These observations allowed the prediction of the amino acid residues involved in DNA nicking, which is required for the initiation of RCR or conjugal transfer of single-stranded (ss) DNA, in Rep and Mob proteins encoded by a number of replicons of highly diverse size, structure and origin. It is conjectured that recombination has played a major part in the dissemination of genes encoding related Rep or Mob proteins among the replicons exploiting RCR. It is speculated that the eucaryotic small ssDNA replicons encoding proteins with the conserved RCR motifs and replicating via RCR-related mechanisms, such as geminiviruses and parvoviruses, may have evolved from eubacterial replicons.     

Expression of the immunity protein of plantaricin 423, produced by Lactobacillus plantarum 423, and analysis of the plasmid encoding the bacteriocin

Plantaricin 423 is a class IIa bacteriocin produced by Lactobacillus plantarum isolated from sorghum beer. It has been previously determined that plantaricin 423 is encoded by a plasmid designated pPLA4, which is now completely sequenced. The plantaricin 423 operon shares high sequence similarity with the operons of coagulin, pediocin PA-1, and pediocin AcH, with small differences in the DNA sequence encoding the mature bacteriocin peptide and the immunity protein. Apart from the bacteriocin operon, no significant sequence similarity could be detected between the DNA or translated sequence of pPLA4 and the available DNA or translated sequences of the plasmids encoding pediocin AcH, pediocin PA-1, and coagulin, possibly indicating a different origin. In addition to the bacteriocin operon, sequence analysis of pPLA4 revealed the presence of two open reading frames (ORFs). ORF1 encodes a putative mobilization (Mob) protein that is homologous to the pMV158 superfamily of mobilization proteins. Highest sequence similarity occurred between this protein and the Mob protein of L. plantarum NCDO 1088. ORF2 encodes a putative replication protein that revealed low sequence similarity to replication proteins of plasmids pLME300 from Lactobacillus fermentum and pYIT356 from Lactobacillus casei. The immunity protein of plantaricin 423 contains 109 amino acids. Although plantaricin 423 shares high sequence similarity with the pediocin PA-1 operon, no cross-reactivity was recorded between the immunity proteins of plantaricin 423 and pediocin PA-1.     

In vivo definition of the functional origin of leading strand replication on the lactococcal plasmid pFX2

The lactococcal plasmid pFX2 belongs to a family of plasmids, whose prototype is the streptococcal plasmid pMV158, that replicates by the rolling circle mechanism. Determination of the nucleotide sequence of the repX gene of pFX2 allowed us to make some minor corrections in the published sequence, and to show that the repX gene is identical to the rep gene of plasmid pWV01. We have established pFX2 in Escherichia coli and in Streptococcus pneumoniae. In the latter host, we have defined in vivo the nick site introduced by the RepX protein. Plasmid pFX2 and the pMV158 derivative pLS1 exhibit a moderate degree of incompatibility in S. pneumoniae. Cloning of the double strand origin (dso) of pFX2 into a high-copy-number plasmid that is compatible with the pMV158 replicon led to an increase in incompatibility toward pLS1. Plasmids pFX2 and pLS1 exhibit homologies in their Rep proteins and in their dso sequences, but not in their negative control elements. Thus, the observed incompatibility indicates that cross-recognition of Rep proteins and dso takes place. Received: 25 May 1998 / Accepted: 8 July 1998     

Region of the streptococcal plasmid pMV158 required for conjugative mobilization.

The nonconjugative streptococcal plasmid pMV158 can be mobilized by the conjugative streptococcal plasmid pIP501. We determined the sequence of the 1.1-kilobase EcoRI fragment of pMV158 to complete the DNA sequence of the plasmid. We showed that an open reading frame, mob (able to encode a polypeptide of 58,020 daltons), is required for mobilization of pMV158. An intergenic region present in the EcoRI fragment contains four lengthy palindromes that are found also in one or more of the staphylococcal plasmids pT181, pE194, and pUB110. One palindromic sequence, palD, which is common to all four plasmids, also appeared to be necessary for mobilization. Circumstantial evidence indicates that this sequence contains both an oriT site and the mob promoter. The Mob protein is homologous in its amino-terminal half to Pre proteins encoded by pT181 and pE194 that were shown by others to be essential for site-specific cointegrative plasmid recombination; their main biological function may be plasmid mobilization.     

Complete DNA sequence and analysis of two cryptic plasmids isolated from Lactobacillus plantarum

The complete nucleotide sequence of two cryptic plasmids isolated from Lactobacillus plantarum strain AS1.2986 has been determined. The smaller plasmid, designated pLP2000, encodes a 37.0kDa Rep protein and has a 17bp sequence repeated 10 times. Sequence analysis of the larger plasmid, designated pLP9000, revealed nine putative open reading frames (ORFs). Based on sequence similarity, ORF1 codes for a putative magnesium transporter protein that shows similarities to CorA from plasmid pCIS3 (Lactococcus lactis). None of the nine ORFs shows similarity to any known Rep protein. Southern blot analysis indicates these two plasmids both replicate via a rolling circle (RC) mechanism.     

植物乳杆菌PC518质粒pLP224的发现以及pMV158家族质粒的保守性和多样性分析

【背景】植物乳杆菌含有丰富的天然质粒,分析这些质粒的序列特征有利于分析质粒所携带的遗传信息。【目的】分析从植物乳杆菌PC518分离的新质粒pLP224,聚类分析其所属家族质粒的保守性与多样性。【方法】提取植物乳杆菌PC518的质粒,酶切后构建质粒DNA文库,测序和BLAST鉴定文库中的新序列;通过反向PCR完成质粒全序列测定,注释新质粒;使用进化树软件MEGA X构建质粒的Rep蛋白进化树,并分析结合序列的变化。【结果】从植物乳杆菌PC518分离出一个质粒pLP224,大小为1 766 bp,其中(G+C)mol%含量为41.39%,与已知质粒的最大序列相似性为86.85%。推定其复制方式为滚环复制,属于pMV158家族成员。17个pMV158家族质粒的Rep蛋白分析表明：pMV158家族质粒的Rep蛋白进化距离越近,其dso位点的结合序列相似性越高,进化距离越远则其序列相似性越低。【结论】 pLP224是pMV158家族的新成员。pMV158家族质粒在dso位点的切开序列上保守,在结合序列上多样。其Rep蛋白随结合序列变化而不同。这种差异有利于pMV158家族不同成员在同一宿主的共存,是家族成员持续存在并稳定进化的基础。     

The smr gene resides on a novel plasmid pSP187 identified in a Staphylococcus pasteuri isolate recovered from unpasteurized milk

This work describes a novel plasmid pSP187 (5550 bp) carrying the small multidrug resistance determinant smr encoding resistance to quaternary ammonium compounds (QACs). pSP187 was identified in a Staphylococcus pasteuri isolate recovered from bulk milk in a dairy cattle herd in Norway. Sequence analysis revealed 6 putative ORFs in addition to the smr gene within a cassette with identical genetic organization to that found in the pSK41-like Staphylococcus aureus plasmid pTZ22. A protein homology search suggested the gene product of ORF7 to be a putative replication initiation protein, while ORF2 was predicted to encode a protein homologous to members of FtsK/SpoIIIE cell division-DNA segregation protein families. Sequence similarities to some initiator proteins of rolling circle replicons (RCR) indicated that pSP187 uses a RCR mode of replication, supported by the detection of intermediate ssDNA using S1 nuclease treatment and hybridization analysis. Interestingly, a 30-bp sequence found upstream from ORF7 showed high similarity to other dyad symmetry motifs proposed as putative double-strand origins of replication in the plasmids pGI3 (Bacillus thuringiensis), pSTK1 (Bacillus stearothermophilus), and pER1-2 (Streptococcus thermophilus). In conclusion: The novel smr-containing plasmid pSP187 is the first member of RCR group VI to be identified in a Staphylococcus sp.     

Analysis of pYC2, a cryptic plasmid in <Emphasis Type="Italic">Lactobacillus sakei</Emphasis> BM5 isolated from kimchi

Analysis of the structural properties of pYC2, a cryptic plasmid from Lactobacillus sakei BM5 isolated from kimchi, determined its length as 1,970 bp with a G + C content of 34%. The double-strand origin (dso) and single-strand origin (sso) of rolling-circle replicating plasmids were found in the nucleotide sequence of the pYC2 plasmid. Sequence analysis of pYC2 revealed that ORF 1 and ORF 2 showed high homology with the Cop and Rep proteins encoded by the pMV158 family of plasmids replicating via the rolling-circle mechanism. pYC2 also replicates by this mechanism, as confirmed by Southern hybridization analysis.     

Sequence Analysis of Small Cryptic Plasmids Isolated from Selenomonas ruminantium S20

Two small cryptic plasmids designated pONE429 and pONE430 were isolated from a rumen bacterium, Selenomonas ruminantium S20. The complete sequence of pONE429 was 2100 bp and contained one open reading frame (ORF) of 201 amino acids. The sequence of pONE430 had 1527 bp and one ORF of 171 amino acids with the similarity of replication protein (Rep protein) of pOM1, pSN2, and pIM13 isolated from Butyrivibrio fibrisolvens, Staphylococcus aureus, and Bacillus subtilis, respectively. In these plasmids, the upstream nucleotide sequence of Rep protein had the conserved nucleotides which could be double-strand origin (DSO) of rolling circle replication (RCR) mechanism. The plasmids of pONE429, pONE430, pJJMI, pJDB21, and pS23 were isolated from S. ruminantium strains and had similar regions that were located within a <450-bp nucleotide. These similar regions may be the location that was recognized by the host strain, S. ruminantium. Received: 10 July 1998 / Accepted: 11 September 1998     

Mobilisation of the streptococcal plasmid pMV158: interactions of MobM protein with its cognate oriT DNA region.

The streptococcal plasmid pMV158 encodes the relaxase protein, MobM, involved in its mobilisation. Purified MobM protein specifically cleaved supercoiled or single-stranded DNA containing the plasmid origin of transfer, oriT. Gel retardation and DNase I footprinting assays performed with DNA fragments containing the plasmid oriT provided evidence for specific binding of MobM by oriT DNA. Dissection of the MobM-binding sequence revealed that the oriT region protected by MobM spanned 28 nucleotides, and includes an inversely repeated sequence, termed IR2. MobM exhibits a high degree of similarity with the mob gene product of the Streptococcus ferus plasmid pVA380-1. Although the origins of transfer of pMV158 and pVA380-1 show 20% sequence divergence in a 24-bp sequence included in their oriT regions, the pMV158 MobM was able to cleave a supercoiled derivative of pVA380-1 in vitro. Received: 12 October 1998 / Accepted: 28 February 1999     

Characterization of a cryptic plasmid from an alpha-proteobacterial endosymbiont of Amoeba proteus

A new cryptic plasmid pAP3.9 was discovered in symbiotic alpha-proteobacteria present in the cytoplasm of Amoeba proteus. The plasmid is 3869bp with a GC content of 34.66% and contains replication origins for both double-strand (dso) and single-strand (sso). It has three putative ORFs encoding Mob, Rep and phosphoglycolate phosphatase (PGPase). The pAP3.9 plasmid appears to propagate by the conjugative rolling-circle replication (RCR), since it contains all required factors such as Rep, sso and dso. Mob and Rep showed highest similarities to those of the cryptic plasmid pBMYdx in Bacillus mycoides. The PGPase was homologous to that of Bacillus cereus and formed a clade with those of Bacillus sp. in molecular phylogeny. These results imply that the pAP3.9 plasmid evolved by the passage through Bacillus species. We hypothesize that the plasmid-encoded PGPase may have contributed to the establishment of bacterial symbiosis within the hostile environment of amoeba cytoplasm.