Molecular Characterization of a Theta Replication Plasmid and Its Use for Development of a Two-Component Food-Grade Cloning System for Lactococcus lactis

pCD4, a small, highly stable theta-replicating lactococcal plasmid, was used to develop a food-grade cloning system. Sequence analysis revealed five open reading frames and two putative cis-acting regions. None appears to code for undesirable phenotypes with regard to food applications. Functional analysis of the replication module showed that only the cis-acting ori region and the repB gene coding for the replication initiator protein were needed for the stable replication and maintenance of pCD4 derivatives in Lactococcus lactis. A two-component food-grade cloning system was derived from the pCD4 replicon. The vector pVEC1, which carries the functional pCD4 replicon, is entirely made up of L. lactis DNA and has no selection marker. The companion pCOM1 is a repB-deficient pCD4 derivative that carries an erythromycin resistance gene as a dominant selection marker. The pCOM1 construct can only replicate in L. lactis if trans complemented by the RepB initiator provided by pVEC1. Since only the cotransformants that carry both pVEC1 and pCOM1 can survive on plates containing erythromycin, pCOM1 can be used transiently to select cells that have acquired pVEC1. Due to the intrinsic incompatibility between these plasmids, pCOM1 can be readily cured from the cells grown on an antibiotic-free medium after the selection step. The system was used to introduce a phage resistance mechanism into the laboratory strain MG1363 of L. lactis and two industrial strains. The introduction of the antiphage barrier did not alter the wild-type plasmid profile of the industrial strains. The phenotype was stable after 100 generations and conferred an effective resistance phenotype against phages of the 936 and c2 species.     

Characterization of a Theta-Type Plasmid from Lactobacillus sakei: a Potential Basis for Low-Copy-Number Vectors in Lactobacilli

The complete nucleotide sequence of the 13-kb plasmid pRV500, isolated from Lactobacillus sakei RV332, was determined. Sequence analysis enabled the identification of genes coding for a putative type I restriction-modification system, two genes coding for putative recombinases of the integrase family, and a region likely involved in replication. The structural features of this region, comprising a putative ori segment containing 11- and 22-bp repeats and a repA gene coding for a putative initiator protein, indicated that pRV500 belongs to the pUCL287 subfamily of theta-type replicons. A 3.7-kb fragment encompassing this region was fused to an Escherichia coli replicon to produce the shuttle vector pRV566 and was observed to be functional in L. sakei for plasmid replication. The L. sakei replicon alone could not support replication in E. coli. Plasmid pRV500 and its derivative pRV566 were determined to be at very low copy numbers in L. sakei. pRV566 was maintained at a reasonable rate over 20 generations in several lactobacilli, such as Lactobacillus curvatus, Lactobacillus casei, and Lactobacillus plantarum, in addition to L. sakei, making it an interesting basis for developing vectors. Sequence relationships with other plasmids are described and discussed.     

Molecular genetic organization and origin of plasmid pBS52 with a broad range of bacterial hosts

The data are presented on the localization of genetic determinants of resistance to streptomycin, ampicillin and sulfanilamides on the physical map of conjugative R plasmid pBS52 of 38,000 bp which has a broad bacterial host range and belongs to a new incompatibility group. The plasmid has a natural "polylinker" site (less than 200 bp) containing (in the order of arrangement) the recognition sites for restriction enzymes: BamHI-EcoRI-PstI-EcoRV-BglII (PvuII). The comparative analysis shows that pBS52 contains a segment homologous to DNA of plasmid RSE1010 (IncP-4). The evolutionary origin of plasmid pBS52 is discussed. The recA-independent formation of the mini-derivatives of pBS373 and pBS374 types during the transformation of Escherichia coli with pBS52 plasmid DNA has been shown. Plasmids pBS373 and yBS374 are capable of autonomous replication in Pseudomonas putida and P. aeruginosa cells, which is provided by the rep system of IncP-4 replicon.     

Cloning and localization of the replication and mobilization regions in the D-plasmid of Pseudomonas putida pBS286 (IncP-9) with a broad host range

Rep-mob loci of naphthalene degradative plasmid pBS286 (IncP-9) have been cloned on the Escherichia coli vectors pUC19 and pUBR322. These loci confer to recombinant plasmids pBS952 and pBS953 the ability for effective mobilization by RP4 (IncP-1) and F plasmid, as well as constant maintenance in various gram-negative bacteria. Localization of cloned sequences in the restriction fragments of conservative part of the pBS286 genome was established. The data obtained correlate with the analysis of plasmids pBS950 and pBS951 which are spontaneous mini-derivatives of pBS286 and pBS292 (delta NPL1::Tn1/Tra+ Nah-) plasmids formed during transformation of E. coli HB101 cells. Plasmids pBS952 and pBS953 retain the incompatibility properties of parental IncP-9 replicon. These recombinant derivatives can be used for construction of bhr vectors with required properties and compatible with bhr vectors constructed on the basis of plasmids from the IncP-1 and IncP-4 groups.     

Selection of initiation replication system mutants of IncP-9 plasmid pBS267

A minireplicon containing the rep gene and oriV site of the γ subgroup of the IncP-9 caprolactam pBS267 biodegradation plasmid was cloned for the first time. It was established that a minimized variant of pBS267 plasmid cannot be sustained in E. coli and is inherited in an unstable way in bacteria Pseudomonas. Using in vitro mutagenesis, mutant variants of the minireplicon were produced, characterized by an increased number of copies in cells, the ability to replicate in E. coli, and relatively stable inheritance in P. putida cells. The obtained constructs are the basis for a study of the replication mechanisms of IncP-9 group plasmids, as well as use as vectors for molecular cloning in a wide range of gram-negative bacteria.     

Characterization of a theta-type plasmid from Lactobacillus sakei: a potential basis for low-copy-number vectors in lactobacilli

The complete nucleotide sequence of the 13-kb plasmid pRV500, isolated from Lactobacillus sakei RV332, was determined. Sequence analysis enabled the identification of genes coding for a putative type I restriction-modification system, two genes coding for putative recombinases of the integrase family, and a region likely involved in replication. The structural features of this region, comprising a putative ori segment containing 11- and 22-bp repeats and a repA gene coding for a putative initiator protein, indicated that pRV500 belongs to the pUCL287 subfamily of theta-type replicons. A 3.7-kb fragment encompassing this region was fused to an Escherichia coli replicon to produce the shuttle vector pRV566 and was observed to be functional in L. sakei for plasmid replication. The L. sakei replicon alone could not support replication in E. coli. Plasmid pRV500 and its derivative pRV566 were determined to be at very low copy numbers in L. sakei. pRV566 was maintained at a reasonable rate over 20 generations in several lactobacilli, such as Lactobacillus curvatus, Lactobacillus casei, and Lactobacillus plantarum, in addition to L. sakei, making it an interesting basis for developing vectors. Sequence relationships with other plasmids are described and discussed.     

A new theta-type thermosensitive replicon from Lactoccocus lactis as an integration vector for Enterococcus faecalis

We isolated a replication thermosensitive mutant of the theta-type lactococcal pUCL22 replicon. An improved version of this thermosensitive replicon was obtained by fusioning the replication repA gene with the downstream repB gene. The resulting plasmid was named pUCB3522Ts. It is highly instable at 42°C in Enterococcus faecalis. Integration into the chromosome via homologous recombination was monitored using the npr gene of E. faecalis JH2-2 as a target. A 513 bp PCR amplification product from an internal region of this npr gene was cloned into pUCB3522Ts. Integration of this construction into the JH2-2 npr gene was selected by shift temperature, from 30°C to 42°C. 85% of the analysed clones showed integration into the npr gene, demonstrating the practicality of this thermosensitive replicon as a genetic integrative tool for E. faecalis.     

Structural-functional organization of R-plasmid pBS222 with a broad range of bacterial hosts

The broad host-range plasmid pBS222 is compatible with broad host-range plasmids of all known incompatibility groups and codes for tetracycline resistance. pBS222 is efficiently mobilized by Inc P-1 plasmid RP4 and is also capable of conjugal transfer with low efficiency to different gramnegative microorganisms. The size of the plasmid (17.2 Kb) has been determined and its physical map has been constructed. The plasmid harbours the unique sites for restriction endonucleases BglII, HindIII, HpaI, KpnI, SmaI and XbaI cleawage. The plasmid derivatives pBS352-pBS355 have been obtained that carry kan- and cam-determinants in addition to tet-gene. Plasmid pBS355 has been used to clone EcoRI-fragments of phage lambda DNA. The plasmid pBS222 regions essential for replication and maintenance have been localized by DNA hybridization analysis of its mini-derivatives pBS356 and 357. pBS222 is a convenient model for investigations of the plasmid replication and maintenance mechanisms in different bacterial hosts as well as for the construction of broad host-range vectors.     

Classification of IncP-7 plasmids based on structural diversity of their basic replicons

The structural diversity of basic replicons and repB gene was analyzed for the first time in a large collection of IncP-7 plasmids by PCR, restriction endonuclease analysis, and partial sequencing. It was found that the DNA fragment that contains the gene for UvrD-like helicase RepB is a part of all known P-7 replicons, but often acts as a hot insertion spot for different IS-elements. Based on the detected divergence of the repA-oriV-parWABC nucleotide sequence, the first system of P-7 plasmid classification has been proposed. Most degradation plasmids were classified in the β subgroup; the streptomycin resistance plasmid Rms148 (IncP-7 archetype) was placed into the α subgroup. The γ subgroup included the carbazole degradation plasmid pCAR1 and NAH/SAL-plasmids from the pY line (Yamal oil deposits), and the CAP plasmid pBS270 with a presumably reduced P-7 replicon was classified into a tentative δ subgroup. It was shown that, in most cases, the character of molecular organization of IncP-7 basic replicons did not correlate with particular phenotypic traits; that is, a given P-7 subgroup can include plasmids that encode different phenotypic markers.     

Identification of a replication initiation protein of the pVV8 plasmid from Thermus thermophilus HB8

Recently, the extremely thermophilic bacterium Thermus thermophilus HB8 has been demonstrated to harbor a circular plasmid designated by pVV8 in addition to two well-known plasmids, pTT8 and pTT27, and its entire sequence has been determined. The absence of any obvious replication initiation gene in the 81.2 kb plasmid prompted us to isolate its minimum replicon. By in vivo replication assays with fragments deleted in a stepwise manner, a minimum replicon containing a single ORF, TTHV001, was identified. A protein encoded by TTHV001 showed no amino acid sequence similarity to other function-known proteins. As the results of in vivo and in vitro experiments strongly suggested that the TTHV001 protein was involved in the replication initiation of pVV8, the protein and the gene were referred to as RepV and repV, respectively. The RepV protein binds to an inverted repeat sequence within its own repV gene and then triggers the unwinding of the DNA duplex in an A + T-rich region located just downstream from the inverted repeat. The in vivo replication assays with minimum replicon mutants in the RepV binding site or the unwinding region demonstrated that the unwinding in the region by the RepV binding was essential for pVV8 replication initiation.     

Molecular characterization of a theta replication plasmid and its use for development of a two-component food-grade cloning system for Lactococcus lactis

pCD4, a small, highly stable theta-replicating lactococcal plasmid, was used to develop a food-grade cloning system. Sequence analysis revealed five open reading frames and two putative cis-acting regions. None appears to code for undesirable phenotypes with regard to food applications. Functional analysis of the replication module showed that only the cis-acting ori region and the repB gene coding for the replication initiator protein were needed for the stable replication and maintenance of pCD4 derivatives in Lactococcus lactis. A two-component food-grade cloning system was derived from the pCD4 replicon. The vector pVEC1, which carries the functional pCD4 replicon, is entirely made up of L. lactis DNA and has no selection marker. The companion pCOM1 is a repB-deficient pCD4 derivative that carries an erythromycin resistance gene as a dominant selection marker. The pCOM1 construct can only replicate in L. lactis if trans complemented by the RepB initiator provided by pVEC1. Since only the cotransformants that carry both pVEC1 and pCOM1 can survive on plates containing erythromycin, pCOM1 can be used transiently to select cells that have acquired pVEC1. Due to the intrinsic incompatibility between these plasmids, pCOM1 can be readily cured from the cells grown on an antibiotic-free medium after the selection step. The system was used to introduce a phage resistance mechanism into the laboratory strain MG1363 of L. lactis and two industrial strains. The introduction of the antiphage barrier did not alter the wild-type plasmid profile of the industrial strains. The phenotype was stable after 100 generations and conferred an effective resistance phenotype against phages of the 936 and c2 species.     

Replication of the Streptomyces plasmid pSN22 through single-stranded intermediates

The replication of the 11 kb conjugative multicopy Streptomyces plasmid pSN22 was analyzed. Mutation and complementation analyses indicated that the minimal region essential for plasmid replication was located on a 1.9 kb fragment of pSN22, containing a trans-acting element encoding a replication protein and a cis-acting sequence acting as a replication origin. Southern hybridization showed that minimal replicon plasmids accumulated much more single-stranded plasmid molecules than did wild-type pSN22. Only one strand was accumulated. A 500 by fragment from the pSN22 transfer region was identified which reduced the relative amount of single-stranded DNA, when added in the native orientation to minimal replicon plasmids. This 500 by DNA sequence may be an origin for second-strand synthesis. It had no effect on the efficiency of co-transformation, plasmid incompatibility, or stability. The results indicate that pSN22 replicates via single-stranded intermediates by a rolling circle mechanism.     

Development and characterization of West Nile virus replicon expressing secreted Gaussia Luciferase

We developed a Gaussia luciferase (Gluc) reporter replicon of West Nile virus (WNV) and used it to quantify viral translation and RNA replication. The advantage of the Gluc replicon is that Gaussia luciferase is secreted into the culture medium from cells transfected with Gluc replicon RNA, and the medium can be assayed directly for luciferase activity. Using a known Flavivirus inhibitor (NITD008), we demonstrated that the Gluc-WNV replicon could be used for antiviral screening. The Gluc-WNV-Rep will be useful for research in antiviral drug development programs, as well as for studying viral replication and pathogenesis of WNV.     

Mapping of the regions participating in the replication, maintenance and mobilization of the R-plasmid pBS222 with a wide circle of bacterial hosts

The analysis of the deletion derivative of pBS359 obtained as a result of sodium bisulphite mutagenesis and of recombinant derivatives pBS361-pBS363 permitted to map genes of the broad-host-range pBS222 plasmid which participate in replication, maintenance and mobilization. These genes are localized within the coordinates 0.2 to 2.5 kb in the region including a unique HindIII restriction site on the pBS222 physical map. Possible participation of the in vitro synthesized polypeptides in providing functions of cosmopolitanism and mobilization is being considered. Putative molecular-genetic structure of pBS222 and the presence of active recombination points are discussed, as well as the merits of the employed method for obtaining derivatives. The derivatives obtained and recombinant plasmids belong to the smallest plasmids which may be inherited in various gram-negative bacteria.     

Bean Yellow Dwarf Virus replicons for high-level transgene expression in transgenic plants and cell cultures

A novel stable transgenic plant expression system was developed using elements of the replication machinery of Bean Yellow Dwarf Virus (BeYDV). The system contains two transgenes: 1) The BeYDV replicon vector with an expression cassette flanked by cis-acting DNA elements of BeYDV, and 2) The viral replication initiator protein (Rep) controlled by an alcohol-inducible promoter. When Rep expression was triggered by treatment with ethanol, it induced release of the BeYDV replicon from stably integrated T-DNA and episomal replication to high copy number. Replicon amplification resulted in substantially increased transgene mRNA levels (up to 80-fold) and translation products (up to 10-fold) after induction of Rep expression by ethanol treatment in tobacco NT1 cells and leaves of whole potato plants. Thus, the BeYDV stable transformant replicon system is a powerful tool for plant-based production of recombinant proteins.     

Isolation and Characterization of Highly Replicable Hepatitis C Virus Genotype 1a Strain HCV-RMT

Multiple genotype 1a clones have been reported, including the very first hepatitis C virus (HCV) clone called H77. The replication ability of some of these clones has been confirmed in vitro and in vivo, although this ability is somehow compromised. We now report a newly isolated genotype 1a clone, designated HCV-RMT, which has the ability to replicate efficiently in patients, chimeric mice with humanized liver, and cultured cells. An authentic subgenomic replicon cell line was established from the HCV-RMT sequence with spontaneous introduction of three adaptive mutations, which were later confirmed to be responsible for efficient replication in HuH-7 cells as both subgenomic replicon RNA and viral genome RNA. Following transfection, the HCV-RMT RNA genome with three adaptive mutations was maintained for more than 2 months in HuH-7 cells. One clone selected from the transfected cells had a high copy number, and its supernatant could infect naïve HuH-7 cells. Direct injection of wild-type HCV-RMT RNA into the liver of chimeric mice with humanized liver resulted in vigorous replication, similar to inoculation with the parental patient’s serum. A study of virus replication using HCV-RMT derivatives with various combinations of adaptive mutations revealed a clear inversely proportional relationship between in vitro and in vivo replication abilities. Thus, we suggest that HCV-RMT and its derivatives are important tools for HCV genotype 1a research and for determining the mechanism of HCV replication in vitro and in vivo.