Identification of the theta-type minimal replicon of theLactococcus lactis subsp.lactis CNRZ270 lactose protease plasmid pUCL22

The replication region of pUCL22, the lactose-protease plasmid ofLactococcus lactis subsp.lactis (Lc. lactis) CNRZ270, was isolated on an 18-kbBamHI fragment, by cloning into pUCB300, anEscherichia coli vector encoding Em^r, and selecting for Em^r inLc. lactis MG1614. Subcloning and deletion analysis localized the replication region, namedRep22, on a 2.3-kb fragment. Replicons based on this region followed a theta-type mechanism of replication inLc. lactis. An internal 1251-bpDraI fragment ofRep22 used as a probe hybridized with numerous plasmids in bacteria from the generaLactococcus, Lactobacillus, andLeuconostoc. In some strains, two or three coresident plasmids hybridized with the probe in stringent conditions. It appears, therefore, that this family of theta-type replicons is widely distributed in lactic acid bacteria and contains several incompatibility groups.     

Molecular analysis of the Lactococcus lactis subspecies lactis CNRZ270 bidirectional theta replicating lactose plasmid pUCL22

pUCL22 is the lactose protease plasmid of Lactococcus lactis ssp. lactis CNRZ270. The nucleotide sequence of its replication region Rep22 contains a non-transcribed region, the replication origin, followed by a gene encoding a putative 388-amino-acid protein named Rep22A. The promoter regions of the rep22A and pC194 cat genes share strong similarities and the pUCL22 replicon exerted trans or cis negative control on the pC194 cat gene expression in L. lactis. We suggest that Rep22A binds to its own promoter as well as to the pC194 cat promoter and thus is autoregulated. We show that pUCL22 replicates mainly by a bidirectional theta mechanism in L. lactis, and is representative of a widely distributed replicon family, members of which could be co-resident. We propose that compatibility between these closely related replicons results from minor replication protein modifications coupled with base changes in their respective binding sites, supporting the co-existence of numerous related replicons in lactococcal strains.     

Molecular Characterization of a Phage-Encoded Resistance System in Lactococcus lactis

A specific fragment of the genome of Tuc2009, a temperate lactococcal bacteriophage, was shown to contain several open reading frames, whose deduced protein products exhibited similarities to proteins known to be involved in DNA replication and modification. In this way, a putative single-stranded binding protein, replisome organizer protein, topoisomerase I, and a methylase were identified. When the genetic information coding for the putative replisome organizer protein of Tuc2009, Rep₂₀₀₉, was supplied on a high-copy-number plasmid vector, it was shown to confer a phage-encoded resistance (Per) phenotype on its lactococcal host UC509.9. The presence of this recombinant plasmid was shown to cause a marked reduction in Tuc2009 DNA replication, suggesting that the observed phage resistance was due to titration of a factor, or factors, required for Tuc2009 DNA replication. Further experiments delineated the phage resistance-conferring region to a 160-bp fragment rich in direct repeats. Gel retardation experiments, which indicated a protein-DNA interaction between this 160-bp fragment and the Rep₂₀₀₉ protein, were performed. UC509.9 strains harboring plasmids with randomly mutated versions of this fragment were shown to display a variable phage resistance phenotype, depending on the position of the mutations.     

Transposition of the Streptococcus lactis ssp. lactis Z270 lactose plasmid to pVA797: demonstration of an insertion sequence and its relationship to an inverted repeat sequence isolated by self-annealing

The lactose plasmid pUCL22 of the single plasmid strain Streptococcus lactis ssp. lactis Z270 was demonstrated to fuse with the heterologous conjugative plasmid pVA797. The fusion of pUCL22 with pVA797 occurred by recombination between a specific sequence of pUCL22 and different sites of pVA797. The cointegrates of pUCL22::pVA797 were unstable: in the absence of lactose selection, they segregated plasmids that corresponded to pVA797 enlarged by one sequence of 1.2 kb, common to all derivative plasmids. This resolution sequence (RS) was shown to originate in the 9.7 kb BstEII restriction fragment of pUCL22 and to duplicate during replicon fusion. In addition, after nuclease S1 treatment of pUCL22 DNA, a self-annealing sequence was isolated; the two copies of this inverted repeat (IR) sequence were located on the 18 kb BamHI segment of the plasmid. This latter sequence was distinct from the RS with which it hybridized weakly. The RS was responsible for the transposition of the entire lactose plasmid; the role of the IR remains to be elucidated.     

Two genes present on a transposon-like structure in Lactococcus lactis are involved in a Clp-family proteolytic activity

The lactose-protease plasmid pUCL22 of Lactococcus lactis subsp. lactis strain CNRZ270 contained two inverted copies of IS 1076 flanking a region of 3.7 kb. This internal region was sequenced and found to contain two large open reading frames, ORF1 and ORFP in opposite orientations. ORF1 consists of 2289 bp; the deduced 763-amino-acid sequence is similar to the ATPases of the ClpA family. It contains two well-conserved consensus ATP-binding sites. It was named ClpL. ORFP consists of 930 bp encoding a protein of 310 amino acids. No similarity with any known protein was found in GenBank data for ORFP. Increased ATP-dependent proteolytic activity was detected in extracts from Escherichia coli cells expressing the clpL and ORFP genes.     

Genetic analysis of the minimal replicon of the Lactococcus lactis subsp. lactis biovar diacetylactis citrate plasmid

Using a combination of mutagenesis with the transposon and polymerase chain reaction subcloning, the essential elements of the replication region of the Lactococcus lactis subsp. lactis biovar diacetylactis citrate plasmid have been identified. An open reading frame, coding for a protein with homology to Rep proteins from other Lactococcus plasmids, is essential. This protein is trans-acting and could not be replaced by the Rep protein from another Lactococcus plasmid. A second open reading frame immediately downstream from the first could be removed or inactivated with no apparent effect on plasmid replication. A region containing two 10 by direct repeats and three tandem repeats of a 22 by sequence, immediately upstream of the essential open reading frame, is also essential and probably includes the origin of replication. A 181-bp DNA fragment containing this region was sufficient to allow replication in Lactococcus if the trans-acting protein was provided on another replicon. Single-stranded replication intermediates could not be detected, suggesting that the citrate plasmid uses theta replication rather than rolling-circle replication.     

Rapid PCR-based determination of transgene copy number in rice

We present a simple, rapid, and low-cost method to determine transgene copy number in rice. More than 100 first- and second-generation transgenic rice plants were tested. The plasmid (pRCopy) used for rice transformation contains the specific gene of interest and a partially deleted cytochrome c gene (cyc), a single-copy gene in rice. A 132-bp segment of the cloned ricecyc was shortened to 108 bp by deleting a 24-bp internal fragment. After PCR amplification of the genomic DNA from transgenic rice harboring pRCopy, the 2 expected bands were found. The 121-bp band corresponds to the endogenouscyc; the 97-bp band comes from the integrated pRCopy. Clear distinctions can be made between single and multiple copies of the transgene by comparing band densities.     

DNA elements modulating the <Emphasis Type="Italic">KARS12</Emphasis> chromosomal replicator in <Emphasis Type="Italic">Kluyveromyces lactis</Emphasis>

Eukaryotic chromosomal DNA replication is initiated by a highly conserved set of proteins that interact with cis-acting elements on chromosomes called replicators. Despite the conservation of replication initiation proteins, replicator sequences show little similarity from species to species in the small number of organisms that have been examined. Examination of replicators in other species is likely to reveal common features of replicators. We have examined a Kluyeromyces lactis replicator, KARS12, that functions as origin of DNA replication on plasmids and in the chromosome. It contains a 50-bp region with similarity to two other K. lactis replicators, KARS101 and the pKD1 replication origin. Replacement of the 50-bp sequence with an EcoRI site completely abrogated the ability of KARS12 to support plasmid and chromosomal DNA replication origin activity, demonstrating this sequence is a common feature of K. lactis replicators and is essential for function, possibly as the initiator protein binding site. Additional sequences up to 1 kb in length are required for efficient KARS12 function. Within these sequences are a binding site for a global regulator, Abf1p, and a region of bent DNA, both of which contribute to the activity of KARS12. These elements may facilitate protein binding, protein/protein interaction and/or nucleosome positioning as has been proposed for other eukaryotic origins of DNA replication.     

Molecular cloning of theEnvC gene ofEscherichia coli

DNA fragments complementing theenvC mutation could be isolated by cloning chromosomal DNA in the vector pUH84. When the frequencies of transformation and the frequencies of restoring theenvC ⁺ phenotype were compared, the high copy number hybrid plasmids complemented with a frequency of 10^–5. After subcloning theenvC-complementing DNA fragment into the low copy number plasmid pLG339, efficient complementation was achieved by spontaneous integration of the IS2 element ofEscherichia coli. By nucleotide sequence analysis, a potential promoter, a ribosome-binding site, and an unidentified reading frame were detected in the respective DNA fragment.     

A novel high-copy plasmid, pEC, compatible with commonly used Escherichia coli cloning and expression vectors

A 66164-bp cryptic plasmid, pEIB1, was isolated from strain Vibrio anguillarum MVM425 and sequenced. A plasmid carrying a 1089-bp fragment, containing the minimal replication region of pEIB1, a kanamycin-resistance marker and an l-arabinose promoter, designated pEC, was maintained as a high copy plasmid in E. coli and stably inherited in the absence of antibiotic selection. Significantly, pEC was compatible with the widely used ColE1, pSC101 and p15A replicons making it a useful tool for a dual-plasmid expression system.     

Cloning of rpsO, the gene for ribosomal protein S15 of Escherichia coli

Summary The gene for Escherichia coli ribosomal protein S15 (rpsO) was cloned on the vector pBR322 from F-prime JCH55 DNA. The recombinant plasmid was transformed to Serratia marcescens cells and it was proved that E. coli S15 was synthesized and incorporated into ribosome particles in S. marcescens cells. A DNA fragment containing rpsO was also inserted into the vector pRF3, which changes its copy number depending on the growth temperature in a temperature-sensitive polA host. By use of this recombinant plasmid it was shown that the relative synthesis rate of S15 increased about twice even when the copy number of the plasmid increased more than twenty-fold.     

The Replicon of the Cryptic Plasmid pSBO1 Isolated from Streptococcus bovis JB1

The cryptic plasmid pSBO1 (3904 bp) was isolated from Streptococcus bovis JB1. pSBO1 contained an open reading frame (ORF) that is homologous to sequences encoding the replication protein (Rep) in pEFC1 (isolated from Enterococcus faecalis), pSK639 (Staphylococcus epidermidis), pLA103 (Lactobacillus acidophilus), and pUCL287 (Tetragenococcus halophila). In addition, four 22-bp direct repeats (DRs) were located upstream of the putative replication gene (rep) of pSBO1. Recombinant plasmids (pSBE10 and pSBE11) containing the DRs and putative rep of pSBO1 replicated in S. bovis 12-U-1 and no8 strains. This result indicates that the putative rep encoded Rep and that the replicon of pSBO1 contained the DRs and the rep. Gel shift assays showed that the Rep of pSBO1 bound the 22-bp DRs. Received: 14 September 2000 / Accepted: 28 November 2000     

Abnormal Reaction Product from Condensation of Phloroaceto-phenone Dimethylether with p-Methoxybenzaldehyde

We identified and analyzed a DNA region that is required for the stable maintenance of plasmids in the genus Sphingomonas. This DNA fragment, a 244?bp, is localized in the upstream region of the repA gene of low-copy-number small plasmid pYAN-1 (4896?bp) of Sphingobium yanoikuyae. It has four inverted repeats and one direct repeat for possible secondary structures. We were able to stabilize not only another unstable plasmid, pYAN-2, in the genus Sphingomonas, but also the unstable plasmid pSC101 without par locus in Escherichia coli. The copy-number levels between the unstable plasmid and the parental plasmid were similar, and these results suggest that the stabilization of unstable plasmids by this DNA region of pYAN-1 was not due to an increase in plasmid copy number. We concluded that the stabilization of the plasmid was due to a plasmid partition mechanism encoded by a DNA fragment of pYAN-1.     

Effective plasmid pX3 transduction in Lactobacillus delbrueckii by bacteriophage LL-H

High-frequency plasmid transductions in Lactobacillus delbrueckii subsp. lactis and subsp. bulgaricus strains mediated by pac-type bacteriophages were observed and further investigated. The frequency of plasmid transduction by phages LL-H and LL-S attained levels of from 0.10 to about 1 with plasmid pX3, but only about 2 × 10⁻² with plasmid pJK650. Infection of L. delbrueckii subsp. lactis strain LKT(pX3) or ATCC 15808(pX3) with phage LL-H resulted in intensive concatemerization of plasmid pX3, and most progeny phage particles contained concatemers of plasmid DNA instead of phage LL-H DNA. The synthesis of phage LL-H DNA was depressed. No evident homology or recombination was observed between phage LL-H DNA and plasmid pX3. The unusually high frequency of plasmid pX3 transduction by phage LL-H could be considered to result from specific interaction(s) between a particular phage and plasmid. These interactions may include pX3-mediated blockage of phage LL-H DNA replication and effective use of a particular pac-like site located about 1 kb from BglII in the smaller NdeI-BglII fragment of plasmid pX3. Phage LL-H together with plasmid vector pX3 could be used as effective plasmid transduction tools for genetic engineering of L. delbrueckii subsp. lactis and subsp. bulgaricus strains.     

Location of the origin of replication for the 7.5-kbChlamydia trachomatis plasmid

The hypothetical origin of replication for the 7.5-kb plasmid common toChlamydia trachomatis is believed to be in a region of the plasmid that contains four 22-bp tandem repeats preceded by an A-T-rich region. To test this hypothesis, replication of plasmid DNA in metabolically active reticulate bodies of the Lymphogranuloma venereum biovar ofC. trachomatis was examined by electron microscopy. The results presented show that the origin of replication appears to be near the tandem repeats of pCHL2. In addition, replication of the 7.5-kb plasmid is unidirectional, and the copy number during replication is 7–10. The evidence presented suggests thatC. trachomatis has a homologue to theEscherichia coli dnaA gene and that this homologue might be involved in replication of theC. trachomatis 7.5-kb plasmid.     

Sequence of the 50-kb Conjugative Multiresistance Plasmid pRE25 from Enterococcus faecalis RE25

The complete 50,237-bp DNA sequence of the conjugative and mobilizing multiresistance plasmid pRE25 from Enterococcus faecalis RE25 was determined. The plasmid had 58 putative open reading frames, 5 of which encode resistance to 12 antimicrobials. Chloramphenicol acetyltransferase and the 23S RNA methylase are identical to gene products of the broad-host-range plasmid pIP501 from Streptococcus agalactiae. In addition, a 30.5-kb segment is almost identical to pIP501. Genes encoding an aminoglycoside 6-adenylyltransferase, a streptothricin acetyltransferase, and an aminoglycoside phosphotransferase are arranged in tandem on a 7.4-kb fragment as previously reported in Tn5405 from Staphylococcus aureus and in pJH1 from E. faecalis. One interrupted and five complete IS elements as well as three replication genes were also identified. pRE25 was transferred by conjugation to E. faecalis, Listeria innocua, and Lactococcus lactis by means of a transfer region that appears similar to that of pIP501. It is concluded that pRE25 may contribute to the further spread of antibiotic-resistant microorganisms via food into the human community.     

Inducible Amplification of Gene Copy Number and Heterologous Protein Production in the Yeast Kluyveromyces lactis

Heterologous protein production can be doubled by increasing the copy number of the corresponding heterologous gene. We constructed a host-vector system in the yeast Kluyveromyces lactis that was able to induce copy number amplification of pKD1 plasmid-based vectors upon expression of an integrated copy of the plasmid recombinase gene. We increased the production and secretion of two heterologous proteins, glucoamylase from the yeast Arxula adeninivorans and mammalian interleukin-1β, following gene dosage amplification when the heterologous genes were carried by pKD1-based vectors. The choice of the promoters for expression of the integrated recombinase gene and of the episomal heterologous genes are critical for the mitotic stability of the host-vector system.     

The replication origin of <Emphasis Type="Italic">Azotobacter vinelandii</Emphasis>

The putative replication origin of Azotobacter vinelandii was cloned as an autonomously replicating fragment after ligation to an antibiotic resistance cartridge. The resulting plasmids could be isolated and labelled by Southern hybridisation with the antibiotic resistance cartridge as probe and also visualised by electron microscopy. These plasmids integrated into the chromosome after a few generations, even in the recA mutant of A. vinelandii. The integrated copy of the plasmid was re-isolated from the chromosome and the DNA and its subfragments were cloned in the plasmid vector pBR322. A 200-bp DNA fragment was sufficient to allow the replication of pBR322 in an Escherichia coli polA strain. Electron microscopic analysis of this plasmid showed that replication initiated mostly within the A. vinelandii DNA fragment. The nucleotide sequence of the putative replication origin and its flanking regions was determined. In the sequence of the 200-bp fragment many of the distinctive features found in other replication origins are lacking. A greater variation from the consensus DnaA binding sequence was observed in A. vinelandii. Direct sequencing of the relevant genomic fragment was also carried after amplifying it from A. vinelandii chromosomal DNA by PCR. This confirmed that no rearrangements had taken place while the cloned fragment was resident in E. coli. It was shown by hybridisation that the 200-bp chromosomal origin fragment of A. vinelandii was present in three other field strains of Azotobacter spp.     

Cell surface display system for Lactococcus lactis: a novel development for oral vaccine

The food-grade Lactococcus lactis is a potential vector to be used as a live vehicle for the delivery of heterologous proteins for vaccine and pharmaceutical purposes. We constructed a plasmid vector pSVac that harbors a 255-bp single-repeat sequence of the cell wall-binding protein region of the AcmA protein. The recombinant plasmid was transformed into Escherichia coli and expression of the gene fragment was driven by the T7 promoter of the plasmid. SDS-PAGE showed the presence of the putative AcmA fragment and this was confirmed by Western blot analysis. The protein was isolated and purified using a His-tag affinity column. When mixed with a culture of L. lactis MG1363, ELISA and immunofluorescence assays showed that the cell wall-binding fragment was anchored onto the outer surface of the bacteria. This indicated that the AcmA repeat unit retained the active site for binding onto the cell wall surface of the L. lactis cells. Stability assays showed that the fusion proteins (AcmA/A1, AcmA/A3) were stably docked onto the surface for at least 5 days. The AcmA fragment was also shown to be able to strongly bind onto the cell surface of naturally occurring lactococcal strains and Lactobacillus and, with less strength, the cell surface of Bacillus sphericus. The new system designed for cell surface display of recombinant proteins on L. lactis was evaluated for the expression and display of A1 and A3 regions of the VP1 protein of enterovirus 71 (EV71). The A1 and A3 regions of the VP1 protein of EV71 were cloned upstream to the cell wall-binding domains of AcmA protein and successfully expressed as AcmA/A1 and AcmA/A3. Whole-cell ELISA showed the successful display of VP1 protein epitopes of EV71 on the surface of L. lactis. The success of the anchoring system developed in this study for docking the A1 and A3 epitopes of VP1 onto the surface of L. lactis cells opens up the possibilities of peptide and protein display for not only Lactococcus but also for other gram-positive bacteria. This novel way of displaying epitopes on the cell surface of L. lactis and other related organisms should be very useful in the delivery of vaccines and other useful proteins.