Complete sequences of four plasmids of Lactococcus lactis subsp. cremoris SK11 reveal extensive adaptation to the dairy environment

Lactococcus lactis strains are known to carry plasmids encoding industrially important traits. L. lactis subsp. cremoris SK11 is widely used by the dairy industry in cheese making. Its complete plasmid complement was sequenced and found to contain the plasmids pSK11A (10,372 bp), pSK11B (13,332 bp), pSK11L (47,165 bp), and pSK11P (75,814 bp). Six highly homologous repB-containing replicons were found, all belonging to the family of lactococcal theta-type replicons. Twenty-three complete insertion sequence elements segment the plasmids into numerous modules, many of which can be identified as functional units or containing functionally related genes. Plasmid-encoded functions previously known to reside on L. lactis SK11 plasmids were now mapped in detail, e.g., lactose utilization (lacR-lacABCDFEGX), the proteolytic system (prtM-prtP, pepO, pepF), and the oligopeptide permease system (oppDFBCA). Newly identified plasmid-encoded functions could facilitate the uptake of various cations, while the pabA and pabB genes could be essential for folate biosynthesis. A competitive advantage could be obtained by using the putative flavin adenine dinucleotide-dependent d-lactate dehydrogenase and oxalate:formate antiporter for enhanced ATP synthesis, while the activity of the predicted alpha-acetolactate decarboxylase may contribute to the formation of an additional electron sink. Various stress response proteins are plasmid encoded, which could enhance strain robustness. A substantial number of these "adaptation" genes have not been described before on L. lactis plasmids. Moreover, several genes were identified for the first time in L. lactis, possibly reflecting horizontal gene transfer.     

Two plasmid-determined restriction and modification systems in Streptococcus lactis

Two restriction and modification systems were found in Streptococcus lactis strain IL594 which was found to contain 9 plasmids designated pIL1 to pIL9. On the basis of protoplast-induced curing experiments, we showed that a restriction and modification system was related to the presence of pIL6 or pIL7. The pIL6-determined restriction and modification system was confirmed by cotransfer of the plasmid and of the restriction and modification system to a plasmid-free, nonrestricting, and nonmodifying derivative of S. lactis IL594.     

Thiol-stimulated secretion of riboflavin and porphyrins by Escherichia coli

Abstract Streptococcus lactis strain IL594 contains 9 plasmids, designated pIL1 to pIL9. On the basis of protoplast-induced curing experiments we showed that derivatives containing pIL7 (31 kb) were resistant to UV-irradiation while derivatives lacking pIL7 were sensitive. The pIL7-determined UV-protection was confirmed by cotransfer of the plasmid and of the character into a plasmid-free derivative of S. lactis IL594. Moreover, prophage induction required higher UV-fluence in this derivative carrying pIL7 than in the plasmid-free strain. This is the first report of a plasmid-mediated UV-protection in group N streptococci.     

Batch cultures of recombinant Lactococcus lactis subsp. lactis in a stirred fermentor

The effect of plasmid introduction into Lactococcus lactis subsp. lactis IL2661 on the growth of this strain and on plasmid stability was studied in pure batch cultures. The plasmids used (coding for erythromycin or chloramphenicol resistance) were the following: pIL205 (42 kb), pIL252 (4.6 kb, 6-9 copies), pIL253 (4.8 kb, 45-85 copies) and pE194 (inserted in the chromosome). Growth and acidification of L. lactis subsp. lactis IL2661 were similar to those of the derived recombinant lactococci. The maximal population at the end of the fermentation (9 h) was about 1.1 +/- 0.3 x 10(10) cfu/ml, and maximal growth rate 0.92 +/- 0.07 h-1. Growth yield and lactic acid concentrations were 3.9 +/- 0.8 x 10(11) cfu/g lactose consumed and 25.6 +/- 2.3 g/l, respectively. Different levels of plasmid stability were detected. Plasmid pE194, and plasmids pIL252 and pIL253 in the absence of pIL205, were stable after 10 h of culture. A slight loss (1-2%) of pIL205 was observed in all strains. In the presence of pIL205, plasmids pIL252 and pIL253 were maintained in only 56-95% of the cells. This result suggested an incompatibility between pIL205 and pIL252 or pIL253.     

Nucleotide sequence analysis of the lactococcal EPS plasmid pNZ4000

The complete 42180-bp nucleotide sequence of the mobilization plasmid pNZ4000, coding for exopolysaccharide (EPS) production in Lactococcus lactis, was determined. This plasmid contains a region involved in EPS biosynthesis, four functional replicons, a region containing mobilization genes, and three origin of transfer (oriT) sequences. Sequences identical to these oriT sequences were also found on two other lactococcal plasmids and a plasmid from Lactobacillus helveticus. Several complete and partial IS elements were identified on pNZ4000, including iso-ISS1, iso-IS946, and iso-IS982 sequences. Furthermore, pNZ4000 contains a gene cluster that may encode a cobalt transport system and a gene that encodes a CorA homologue which may function as a magnesium transporter.     

Physical and genetic map of the chromosome of Lactococcus lactis subsp. lactis IL1403.

A combined physical and genetic map of the chromosome of Lactococcus lactis subsp. lactis IL1403 was determined. We constructed a restriction map for the NotI, ApaI, and SmaI enzymes. The order of the restriction fragments was determined by using the randomly integrative plasmid pRL1 and by performing indirect end-labeling experiments. The strain IL1403 chromosome was found to be circular and 2,420 kb in size. A total of 24 chromosomal markers were mapped on the chromosome by performing hybridization experiments with gene probes for L. lactis and various other bacteria. Integration of pRC1-derived plasmids via homologous recombination allowed more precise location of some lactococcal genes and allowed us to determine the orientation of these genes on the chromosome. Recurrent sequences, such as insertion elements and rRNA gene (rrn) clusters, were also mapped. At least seven copies of IS1076 were present and were located on 50% of the chromosome. In contrast, no copy of ISS1RS was detected. Six ribosomal operons were found on the strain IL1403 chromosome; five were located on 16% of the chromosome and were transcribed in the same direction. A comparison of the physical maps of L. lactis subsp. lactis IL1403 and DL11 showed that these two strains are closely related and that the variable regions are located mainly near the rrn gene clusters. In contrast, despite major restriction pattern dissimilarities between L. lactis IL1403 and MG1363, the overall genetic organization of the genome seems to be conserved between these two strains.     

Plasmids of raw milk cheese isolate Lactococcus lactis subsp. lactis biovar diacetylactis DPC3901 suggest a plant-based origin for the strain

The four-plasmid complement of the raw milk cheese isolate Lactococcus lactis subsp. lactis biovar diacetylactis DPC3901 was sequenced, and some genetic features were functionally analyzed. The complete sequences of pVF18 (18,977 bp), pVF21 (21,739 bp), pVF22 (22,166 bp), and pVF50 (53,876 bp) were obtained. Each plasmid contained genes not previously described for Lactococcus, in addition to genes associated with plant-derived lactococcal strains. Most of the novel genes were found on pVF18 and encoded functions typical of bacteria associated with plants, such as activities of plant cell wall modification (orf11 and orf25). In addition, a predicted high-affinity regulated system for the uptake of cobalt was identified (orf19 to orf21 [orf19-21]), which has a single database homolog on a plant-derived Leuconostoc plasmid and whose functionality was demonstrated following curing of pVF18. pVF21 and pVF22 encode additional metal transporters, which, along with orf19-21 of pVF18, could enhance host ability to uptake growth-limiting amounts of biologically essential ions within the soil. In addition, vast regions from pVF50 and pVF21 share significant homology with the plant-derived lactococcal plasmid pGdh442, which is indicative of extensive horizontal gene transfer and recombination between these plasmids and suggests a common plant niche for their hosts. Phenotypes associated with these regions include glutamate dehydrogenase activity and Na(+) and K(+) transport. The presence of numerous plant-associated markers in L. lactis DPC3901 suggests a plant origin for the raw milk cheese isolate and provides for the first time the genetic basis to support the concept of the plant-milk transition for Lactococcus strains.     

pH influences growth and plasmid stability of recombinant Lactococcus lactis subsp. lactis

Continuous cultures of a recombinant Lactococcus lactis subsp. lactis strain were performed to display the effect of the fermentation pH on the specific growth rate and plasmid stability. The proportion of plasmid pIL252 bearing cells decreased exponentially with the number of generations. The influence of the pH on the rate of loss of plasmid pIL252 and on the specific growth rate of L. lactis IL2682 was described by second order polynomial equations. Optimal pH for the growth and plasmid stability were 6.39 and 6.41 respectively. © Rapid Science Ltd. 1998     

Cloning and partial sequencing of the proteinase gene complex from Lactococcus lactis subsp. lactis UC317.

The proteinase genes from Lactococcus lactis subsp. lactis UC317 were identified on a plasmid, pCI310, which is a deletion derivative of a cointegrate between pCI301, the 75 kb Lac Prt plasmid from UC317 and the 38.5 kb cryptic plasmid from that strain. The prt genes were cloned using a replacement cloning strategy whereby fragments from pCI310 were exchanged with the equivalent fragments in pNZ521, which contains the cloned proteinase genes from L. lactis subsp. lactis SK112. This generated two plasmids which encoded a cell-envelope-associated and a secreted proteinase, respectively. Specific regions of the UC317 structural prtP gene known to encode seven of the amino acids essential for substrate cleavage specificity were sequenced and compared with the known sequences of prt genes from L. lactis strains SK112, Wg2 and NCDO763. In spite of various differences that were detected in the nucleotide sequence of this region, it appears that these seven amino acids in strains UC317 and NCDO763 are identical, and represent a combination of three of the amino acids from SK112 and four from Wg2. These results indicate that the UC317 proteinase is a natural hybrid of the SK112 and Wg2 proteinases.     

Molecular organization of the minimal replicon of novel, narrow-host-range, lactococcal plasmid pCI305

Plasmid pCI305 is an 8.7-kb, narrow-host-range, cryptic plasmid originating from Lactococcus lactis subsp. lactis UC317. The nucleotide sequence of the pCI305 replication region was determined. A single open reading frame of 1158 bp was identified in the trans-active domain repB. The size of the predicted repB protein (46 kDa) is in close agreement with the size of the repB product visualized in vivo in Escherichia coli when repB was placed under control of the inducible phi T7 RNA polymerase promoter. In vivo substitution of the native repB promoter sequence with a Tn5-derived promoter sequence was demonstrated. repA, a 344-bp cis-acting region which is the probable pCI305 replication origin region, was noncoding, was AT-rich, and possessed a unique set of inverted and direct repeat sequences. No significant homology between repA or repB and other gram-positive replication regions was evident. Combined with the absence of a detectable single-stranded DNA intermediate during replication, these results indicate that the pCI305 replication region differs markedly from most gram-positive replicons examined to date. The presence on other lactococcal plasmids of replication regions related to that of pCI305 was demonstrated.     

Characterization of plasmids in a human clinical strain of Lactococcus garvieae

The present work describes the molecular characterization of five circular plasmids found in the human clinical strain Lactococcus garvieae 21881. The plasmids were designated pGL1-pGL5, with molecular sizes of 4,536 bp, 4,572 bp, 12,948 bp, 14,006 bp and 68,798 bp, respectively. Based on detailed sequence analysis, some of these plasmids appear to be mosaics composed of DNA obtained by modular exchange between different species of lactic acid bacteria. Based on sequence data and the derived presence of certain genes and proteins, the plasmid pGL2 appears to replicate via a rolling-circle mechanism, while the other four plasmids appear to belong to the group of lactococcal theta-type replicons. The plasmids pGL1, pGL2 and pGL5 encode putative proteins related with bacteriocin synthesis and bacteriocin secretion and immunity. The plasmid pGL5 harbors genes (txn, orf5 and orf25) encoding proteins that could be considered putative virulence factors. The gene txn encodes a protein with an enzymatic domain corresponding to the family actin-ADP-ribosyltransferases toxins, which are known to play a key role in pathogenesis of a variety of bacterial pathogens. The genes orf5 and orf25 encode two putative surface proteins containing the cell wall-sorting motif LPXTG, with mucin-binding and collagen-binding protein domains, respectively. These proteins could be involved in the adherence of L. garvieae to mucus from the intestine, facilitating further interaction with intestinal epithelial cells and to collagenous tissues such as the collagen-rich heart valves. To our knowledge, this is the first report on the characterization of plasmids in a human clinical strain of this pathogen.     

Molecular characterization of plasmids pS7a and pS7b from Lactococcus lactis subsp. lactis bv. diacetylactis S50 as a base for the construction of mobilizable cloning vectors

Aims:  Strain Lactococcus lactis subsp. lactis bv. diacetylactis S50 harbours five theta-replicating plasmids (pS6, pS7a, pS7b, pS80 and pS140). The aim of this study was to characterize domains involved in the replication and conjugative mobilization of the small plasmids pS7a and pS7b, which are structurally very similar.
Methods and Results:  Complete nucleotide sequences of pS7a and pS7b were determined by cloning DNA fragments of different sizes into Escherichia coli vectors. Linearized plasmids and four Eco RI fragments of the pS7a and pS7b were cloned into an origin probe vector. Constructed plasmids (pSEV10, pSK10, pISE1a and pISE1b) were able to replicate in the strain L. lactis subsp. cremoris MG1363. In addition, experiments showed that plasmids pS7a and pS7b contained oriT sequences and their conjugative transfer directly depended on the presence of pS80 in donor cells.
Conclusions:  Plasmids pS7a and pS7b contained typical lactococcal theta replication origin and repB gene that enable them to replicate in the strain L. lactis subsp. cremoris MG1363. Plasmid pS80 plays a key role in the conjugative transfer of small plasmids.
Significance and Impact of the Study:  Plasmids pS7a and pS7b-based derivatives could be valuable tools for genetic manipulation, studying processes of plasmid maintenance and horizontal gene transfer in lactococci.     

Sequence analysis and characterization of plasmids from Streptococcus thermophilus

The nucleotide sequences of eight plasmids isolated from seven Streptococcus thermophilus strains have been determined. Plasmids pSt04, pER1-1, and pJ34 are related and replicate via a rolling circle mechanism. Plasmid pJ34 encodes for a replication initiation protein (RepA) and a small polypeptide with unknown function. Plasmids pSt04 and pER1-1 carry in addition to repA genes coding for small heat shock proteins (sHsp). Expression of these proteins is induced at elevated temperatures or low pH and increases the thermo- and acid resistance. Plasmids pER1-2 and pSt22-2 show identical sequences with five putative open reading frames (ORFs). The gene products of ORF1 and ORF4 reveal some similarities to transposon encoded proteins of Bacillus subtilis and Tn916. ORF1 of plasmid pSt106 encodes a protein similar to resolvases of different Gram-positive bacteria. Integrity of ORF2 and 3, encoding a putative DNA primase and a replication protein, is essential for replication. ORF1 to 3 of plasmid pSt08, which are organized in a tricistronic operon, encode a RepA protein, an adenosine-specific methyltransferase, and a type II restriction endonuclease. Another type II restriction-modification (R/M) system is encoded on plasmid pSt0 which is highly similar to those encoded on lactococcal plasmid pHW393 and B. subtilis plasmid pXH13. Plasmid-free derivatives of strains St0 and St08 show increased phage sensitivity, indicating that in the wild-type strains the R/M systems are functionally expressed. Recombinant plasmids based on the replicons of plasmids pSt04, pJ34, pSt106, pSt08, and pSt0, are able to replicate in Lactococcus lactis and B. subtilis, respectively, whereas constructs carrying pER1-2 only replicate in S. thermophilus.     

Multilocus enzyme typing of human and animal strains of Clostridium perfringens

Abstract The stability of plasmids introduced in Lactobacillus lactis IL1403 was followed in continuous cultures. Four strains with or without pIL205 and pIL252 or pIL253 (low or high copy number) were studied. pIL205 was remarkably stable even after 180 generations, suggesting the presence of a partitioning system which is still unidentified. In contrast, pIL252 and pIL253 were unstable, in the presence as well as in the absence of pIL205. The multicopy plasmid pIL253 was nevertheless more stable than pIL252 (90% loss after 180 and 60 generations, respectively). The instability was not related to an incompatibility between pIL205 and pIL252 (or pIL253). The segregational instability of pIL252 and pIL253 plasmids could be explained by the loss of the resolvase gene during their construction.     

Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp. cremoris MG1363

Lactococcus lactis is of great importance for the nutrition of hundreds of millions of people worldwide. This paper describes the genome sequence of Lactococcus lactis subsp. cremoris MG1363, the lactococcal strain most intensively studied throughout the world. The 2,529,478-bp genome contains 81 pseudogenes and encodes 2,436 proteins. Of the 530 unique proteins, 47 belong to the COG (clusters of orthologous groups) functional category "carbohydrate metabolism and transport," by far the largest category of novel proteins in comparison with L. lactis subsp. lactis IL1403. Nearly one-fifth of the 71 insertion elements are concentrated in a specific 56-kb region. This integration hot-spot region carries genes that are typically associated with lactococcal plasmids and a repeat sequence specifically found on plasmids and in the "lateral gene transfer hot spot" in the genome of Streptococcus thermophilus. Although the parent of L. lactis MG1363 was used to demonstrate lysogeny in Lactococcus, L. lactis MG1363 carries four remnant/satellite phages and two apparently complete prophages. The availability of the L. lactis MG1363 genome sequence will reinforce its status as the prototype among lactic acid bacteria through facilitation of further applied and fundamental research.     

Molecular Properties of Streptococcus thermophilus Plasmid pER35 Encoding a Restriction Modification System

Bacteriophage attack on lactic fermentation bacteria (LFB) is costly to the dairy industry because it results in product loss. One mechanism used by LFB to protect themselves from bacteriophage attack is restriction of foreign DNA. Three plasmids, pER16, pER35, and pER36, from three different strains of the thermotolerant dairy fermentation bacterium Streptococcus thermophilus were sequenced. One of these plasmids, pER35, isolated from S. thermophilus ST135, encoded a type IC restriction-modification (R-M) system very similar to those encoded on plasmids pIL2614 in Lactococcus lactis subsp. lactis and pND861 in Lactococcus lactis biovar diacetylactis. The high degree of identity between the R-M systems encoded on pER35, pIL2614, and pND861 indicated the potential for horizontal transfer of these genes between different species of lactic fermentation bacteria. Similar to the functional R-M system encoded on pIL2614 that protects the mesophilic L. lactis subsp. lactis against phage attack, the R-M system on pER35 most likely functions in the same role in S. thermophilus ST135. The plasmid pER16 was found to encode the specificity subunit of the R-M system, but not the R or M subunits. In addition, all three plasmids encoded proteins that are present on other S. thermophilus plasmids, including a protein for rolling-circle replication (RepA) and a low-molecular-weight stress protein (Hsp). The presence of a complete R-M system encoded on a plasmid in S. thermophilus, a species that often lacks plasmids, is novel and may be beneficial for protecting S. thermophilus from bacteriophage attack under dairy fermentation conditions.     

Integration and excision of plasmid DNA in Lactococcus lactis subsp. lactis

The capacity of the 75-kb lactose-proteinase plasmid pCI301 from Lactococcus lactis subsp. lactis UC317 to recombine with the lactococcal chromosome was examined. Low-frequency integration of pCI301 sequences was detected following protoplast transformation of strain MG136Sm with total plasmid DNA from strain UC317. Excision of integrated sequences was subsequently observed at a low level. Excised sequences were rescued through recombination with and mobilization by the conjugative enterococcal plasmid pAMB1. Transconjugants harboring novel recombinant pCI301::pAMB1 plasmids, both pAMB1 and a pCI301 derivative, and pAMB1 only were isolated. The latter represents a class of transconjugant in which an elevated level of reintegration of pCI301 DNA in the recipient chromosome has occurred.     

Proteinase PI and lactococcin A genes are located on the largest plasmid in Lactococcus lactis subsp. lactis bv. diacetylactis S50

Lactococcus lactis subsp. lactis bv. diacetylactis S50 produces a lactococcin A-like bacteriocin named bacteriocin S50, and cell envelope-associated PI-type proteinase activity. This strain harbours 3 small size plasmids: pS6 (6.3 kb), pS7a (7.31 kb), and pS7b (7.27 kb). Plasmid curing using a combination of novobiocin treatment (10 microg.mL-1) and sublethal temperature (40 degrees C) resulted in a very low yield (0.17%) of Prt-, Bac-, Bacs derivatives, which retained all 3 small size resident plasmids. Pulsed-field gel electrophoresis of DNA isolated from the strain S50 and cured derivatives in combination with restriction enzyme analysis and DNA-DNA hybridization revealed that S50 contains 2 additional large plasmids: pS140 (140 kb) and pS80 (80 kb). Conjugation experiments using strain S50 as a donor and various lactococcal recipients resulted in Prt+, Bac+, Bacr transconjugants. Analysis of these transconjugants strongly indicated that plasmid pS140 harbours the prt and bac genes encoding proteinase and bacteriocin production, and immunity to bacteriocin, since each Prt+, Bac+, Bacr tranconjugant contained pS140. Accordingly, none of the Prt-,Bac-, Bacs transconjugants contained this plasmid. pS140 was a self-transmissible conjugative plasmid regardless of the host lactococcal recipient used in the test. Frequency of conjugation of plasmid pS140 did not depend on either the donor or recipient strain.     

General and specialized vectors derived from pBM02, a new rolling circle replicating plasmid of Lactococcus lactis

This paper reports the construction of several general cloning vectors and a specialized depurative vector based on a new lactococcal plasmid that replicates by the rolling circle mechanism [pBM02; Plasmid 49 (2003) 118]. Most vectors are shuttle vectors for Escherichia coli-Lactococcus lactis and carry replicons of both ColE1 and pBM02 plasmids (ColE1 is used even though the pBM02 replicon is fully active in both Gram-positive and Gram-negative organisms). Segregational and structural studies indicated that the new vectors were stable enough for the majority of applications. Further, since the basic replicon is compatible with plasmid derivatives of pWV01 and pSH71, they can be maintained in the same cell with members of the two largest vector series for L. lactis and other lactic acid bacteria, the pGK, and the pNZ series.     

Molecular characterization of the integration of the lactose plasmid from Lactococcus lactis subsp. cremoris SK11 into the chromosome of L. lactis subsp. lactis.

When Lactococcus lactis subsp. lactis LM0230 is transformed by the lactose plasmid (pSK11L) from Lactococcus lactis subsp. cremoris SK11, variants with pSK11L in the integrated state can be derived (J. M. Feirtag, J. P. Petzel, E. Pasalodos, K. A. Baldwin, and L. L. McKay, Appl. Environ. Microbiol. 57:539-548, 1991). In the present study, a 1.65-kb XbaI-XhoI fragment of pSK11L was subcloned for use as a probe in Southern hybridization analyses of the mechanism of integration, which was shown to proceed via a Campbell-like, single-crossover event. Furthermore, the presence of the XbaI-XhoI fragment in a nonreplicating vector facilitated the stable, Rec-dependent integration of the vector into the chromosome of L. lactis subsp. lactis LM0230 and other lactococci. DNA sequence analysis of the fragment revealed an open reading frame of 885 bp with lactococcal expression sequences. The putative gene did not have significant homology with other genes in computer data bases. The XbaI-XhoI fragment is a naturally occurring piece of lactococcal DNA that can be used as a recombinogenic cassette in the construction of integration vectors for the industrially important lactococci.