Sequence analysis and molecular characterization of the Lactococcus lactis temperate bacteriophage BK5-T.

The Lactococcus lactis temperate bacteriophage BK5-T is one of twelve type phages that define L. lactis phage species. This paper describes the nucleotide sequence and analysis of a 21-kbp region of the BK5-T genome and completes the nucleotide sequence of the genome of this phage. The 40,003-nucleotide linear genome encodes 63 open reading frames. Sequence runoff experiments showed that the cohesive ends of the BK5-T genome contained a 12-bp 3' single-stranded overhang with the sequence 5'-CACACACATAGG-3'. Two major BK5-T structural proteins, of approximately 30 and 20 kDa, were identified, and N-terminal sequence analysis determined that they were encoded by orf7 and orf12, respectively. A 169-bp fragment containing a 37-bp direct repeat and several smaller repeat sequences conferred resistance to BK5-T infection when introduced in trans to the host cell and is likely a part of the BK5-T origin of replication (ori).

Comparative genomics of lactococcal phages: insight from the complete genome sequence of Lactococcus lactis phage BK5-T.

Lactococcus lactis phage BK5-T and Streptococcus thermophilus phage Sfi21, two cos-site temperate Siphoviridae with 40-kb genomes, share an identical genome organization, sequence similarity at the amino acid level over about half of their genomes, and nucleotide sequence identity of 60% over the DNA packaging and head morphogenesis modules. Siphoviridae with similarly organized genomes and substantial protein sequence similarity were identified in several genera of low-GC-content Gram-positive bacteria. These phages demonstrated a gradient of relatedness ranging from nucleotide sequence similarity to protein sequence similarity to gene map similarity over the DNA packaging and head morphogenesis modules. Interestingly, the degree of relatedness was correlated with the evolutionary distance separating their bacterial hosts. These observations suggest elements of vertical evolution in phages. The structural genes from BK5-T shared no sequence relationships with corresponding genes/proteins from lactococcal phages belonging to distinct lactococcal phage species, including phage sk1 (phage species 936) that showed a closely related gene map. Despite a clearly distinct genome organization, lactococcal phages sk1 and c2 showed nine sequence-related proteins. Over the early gene cluster phage BK5-T shared nine regions of high nucleotide sequence similarity, covering at most two adjacent genes, with lactococcal phage r1t (phage species P335). Over the structural genes, the closest relatives of phage r1t were not lactococcal phages belonging to other phage species, but Siphoviridae from Mycobacteria (high-GC-content Gram-positive bacteria). Evidence for recent horizontal gene transfer between distinct phage species was obtained for dairy phages, but these transfers were limited to phages infecting the same bacterial host species.

Identification and characterization of a cystathionine beta/gamma-lyase from Lactococcus lactis ssp. cremoris MG1363.

This paper describes the nucleotide sequence of a gene encoding cystathionine beta/gamma-lyase from Lactococcus lactis ssp. cremoris MG1363, its overexpression in Escherichia coli and some functional characteristics of the purified recombinant protein.

Detection of bacteriocins of lactic acid bacteria isolated from foods and comparison with pediocin and nisin.

A total of 663,533 colonies from 72 dairy and meat sources showed a detection rate of 0.2% for bacteriocin producers using direct plating techniques. A further 83,000 colonies from 40 fish and vegetable sources showed a detection rate of 3.4% for bacteriocin producers using selective enrichment procedures. A collection of seven purified isolates showing a different host spectrum of bacteriocin activity and with the ability to produce bacteriocins in broth culture were compared with nisin and pediocin (with respect to their inhibitory activity, determined by the critical dilution method), against various indicator bacteria in agar and broth. The sensitivity of Listeria species to various bacteriocins was influenced by the agar and broth test systems used. A Lactobacillus curvatus strain was found to be the most suitable indicator for quantitating antimicrobial effects of all the bacteriocins investigated in both agar and broth test systems. The bacteriocin-producing isolates were characterized by biochemical reactions and DNA restriction enzyme profiles and taxonomic identification revealed species of Lactobacillus, Carnobacterium and Lactococcus assigned on the basis of 16S rDNA sequences.

Inhibition of Listeria monocytogenes by piscicolin 126 in milk and Camembert cheese manufactured with a thermophilic starter.

The effect of bacteriocin, piscicolin 126, on the growth of Listeria monocytogenes and cheese starter bacteria was investigated in milk and in Camembert cheese manufactured from milk challenged with 10(2) cfu ml(-1) L. monocytogenes. In milk incubated at 30 degrees C, piscicolin 126 added in the range of 512-2,048 AU ml(-1) effectively inhibited growth of L. monocytogenes for more than 20 d when challenged with approximately 10(2) cfu ml(-1) L. monocytogenes. At higher challenge levels (10(4) and 10(6) cfu ml(-1)), piscicolin 126 reduced the viable count of L. monocytogenes by 4-5 log units immediately after addition of the bacteriocin; however, growth of Listeria occurred within 24 h. The minimum inhibitory concentration (MIC) of piscicolin 126 against lactic acid cheese starter bacteria was generally greater than 204,800 AU ml(-1) , and the viable count and acid production of these starter cultures in milk were not affected by the addition of 2,048 AU ml(-1) piscicolin 126. Camembert cheeses made from milk challenged with L. monocytogenes and with added piscicolin 126 showed a viable count of L. monocytogenes 3-4 log units lower than those without piscicolin 126. Inactivation of piscicolin 126 by proteolytic enzymes from cheese starter bacteria and mould together with the emergence of piscicolin 126-resistant isolates was responsible for the recovery of L. monocytogenes in the cheeses during ripening.

Analysis of the DNA sequence, gene expression, origin of replication and modular structure of the Lactococcus lactis lytic bacteriophage sk1.

Bacteriophage sk1 is a small isometric-headed lytic phage belonging to the 936 species. It infects Lactococcus lactis, a commonly used dairy starter organism. Nucleotide sequence data analysis indicated that the sk1 genome is 28,451 nucleotides long and contains 54 open reading frames (ORFs) of 30 or more codons, interspersed with three large intergenic regions. The nucleotide sequence of several of the sk1 ORFs demonstrated significant levels of identity to genes (many encoding proteins of unknown function) in other lactococcal phages of both small isometric-headed and prolate-headed morphotype. Based on this identity and predicted peptide structures, sk1 genes for the terminase, major structural protein and DNA polymerase have been putatively identified. Genes encoding holin and lysin were also identified, subcloned into an Escherichia coli expression vector, and their function demonstrated in vivo. The sk1 origin of replication was located by identifying sk1 DNA fragments able to support the maintenance in L. lactis of a plasmid lacking a functional Gram-positive ori. The minimal fragment conferring replication origin function contained a number of direct repeats and 179 codons of ORF47. Although no similarity between phage sk1 and coliphage lambda at the nucleotide or amino acid sequence level was observed, an alignment of the sk1 late region ORFs with the lambda structural and packaging genes revealed a striking correspondence in both ORF length and isoelectric point of the ORF product. It is proposed that this correspondence is indicative of a strong conservation in gene order within these otherwise unrelated isometric-headed phages that can be used to predict the functions of the sk1 gene products.

Genomic organization of lactic acid bacteria.

Current knowledge of the genomes of the lactic acid bacteria, Lactococcus lactis and Streptococcus thermophilus, and members of the genera Lactobacillus, Leuconostoc, Pediococcus and Carnobacterium, is reviewed. The genomes contain a chromosome within the size range of 1.8 to 3.4 Mbp. Plasmids are common in Lactococcus lactis (most strains carry 4-7 different plasmids), some of the lactobacilli and pediococci, but they are not frequently present in S. thermophilus, Lactobacillus delbrueckii subsp. bulgaricus or the intestinal lactobacilli. Five IS elements have been found in L. lactis and most strains carry multiple copies of at least two of them; some strains also carry a 68-kbp conjugative transposon. IS elements have been found in the genera Lactobacillus and Leuconostoc, but not in S. thermophilus. Prophages are also a normal component of the L. lactis genome and lysogeny is common in the lactobacilli, however it appears to be rare in S. thermophilus. Physical and genetic maps for two L. lactis subsp. lactis strains, two L. lactis subsp. cremoris strains and S. thermophilus A054 have been constructed and each reveals the presence of six rrn operons clustered in less than 40% of the chromosome. The L. lactis subsp. cremoris MG1363 map contains 115 genetic loci and the S. thermophilus map has 35. The maps indicate significant plasticity in the L. lactis subsp. cremoris chromosome in the form of a number of inversions and translocations. The cause(s) of these rearrangements is (are) not known. A number of potentially powerful genetic tools designed to analyse the L. lactis genome have been constructed in recent years. These tools enable gene inactivation, gene replacement and gene recovery experiments to be readily carried out with this organism, and potentially with other lactic acid bacteria and Gram-positive bacteria. Integration vectors based on temperate phage attB sites and the random insertion of IS elements have also been developed for L. lactis and the intestinal lactobacilli. In addition, a L. lactis sex factor that mobilizes the chromosome in a manner reminiscent to that seen with Escherichia coli Hfr strains has been discovered and characterized. With the availability of this new technology, research into the genome of the lactic acid bacteria is poised to undertake a period of extremely rapid information accrual.

Characterization of the chemical and antimicrobial properties of piscicolin 126, a bacteriocin produced by Carnobacterium piscicola JG126.

A novel peptide bacteriocin produced by the lactic acid bacterium Carnobacterium piscicola JG126 isolated from spoiled ham was purified and characterized. This bacteriocin, designated piscicolin 126, inhibited the growth of several gram-positive bacteria, especially the food-borne pathogen Listeria monocytogenes, but had no effect on the growth of a number of yeasts and gram-negative bacteria. Bactericidal activity was not destroyed by exposure to elevated temperatures at low pH values; however, bactericidal activity was lost at high pH values, especially when high pH values were combined with an elevated temperature. Piscicolin 126 activity was not affected by catalase, lipase, or lysozyme but was destroyed by exposure to a range of proteolytic enzymes. Piscicolin 126 was purified to homogeneity and was found to be a peptide having a molecular weight of 4,416.6 +/- 1.9. A sequence analysis revealed that this compound is a cystibiotic (class IIa) bacteriocin containing 44 amino acid residues and one intrapeptide disulfide ring. Piscicolin 126 has regions of homology with some other bacteriocins obtained from lactic acid bacteria and is most closely related to sakacin P and pediocin PA-1 (levels of identity, 75 and 55%, respectively). Addition of piscicolin 126 to a devilled ham paste test food system inhibited the growth of L. monocytogenes for at least 14 days. Piscicolin 126 was more effective than two commercially available bacteriocin preparations tested in the same system.

Sequence analysis of the Lactococcus lactis temperate bacteriophage BK5-T and demonstration that the phage DNA has cohesive ends.

The Lactococcus lactis temperate bacteriophage BK5-T is a type phage in the lactococcal phage classification (A. W. Jarvis, G. F. Fitzgerald, M. Mata, A. Mercenier, H. Neve, I. B. Powell, C. Ronda, M. Saxelin, and M. Teuber, Intervirology 32:2-9, 1991). The nucleotide sequence of 18,935 bp of the genome of BK5-T was determined and analyzed for the presence of open reading frames and other structural features. Thirty-two open reading frames longer than 60 codons were identified, and these appeared to be grouped into at least seven transcriptional units. A search of the nucleotide sequence for restriction sites identified a small number of discrepancies with the previously published physical map of the BK5-T genome (G. Lakshmidevi, B. E. Davidson, and A. J. Hillier, Appl. Environ. Microbiol. 54:1039-1045, 1988). Subsequent analysis of restriction digests of BK5-T DNA which were heated prior to electrophoresis indicated that BK5-T DNA was not terminally redundant as previously reported but contained cohesive ends.

Identification of prophage genes expressed in lysogens of the Lactococcus lactis bacteriophage BK5-T.

Bacteriophage BK5-T is a small isometric-headed temperate phage that infects Lactococcus lactis subsp. cremoris. Northern (RNA) analysis of mRNA produced by lysogenic strains containing BK5-T prophage revealed four major BK5-T transcripts that are 0.8, 1.3, 1.8, and 1.8 kb in size and enabled a transcription map of the prophage genome to be prepared. The position and size of each transcript corresponded closely to the position and size of open reading frames predicted from the nucleotide sequence of BK5-T. Analysis of the transcripts suggested that one of them was derived from the gene encoding the BK5-T integrase and another was from the gene encoding the BK5-T homolog of the lambda cI repressor. Computer analysis of the nucleotide sequence upstream of the BK5-T cI homolog predicted the presence of a pair of divergent promoters and three inverted repeat sequences, features characteristic of temperature-phage immunity regions. By analogy with lambda, the three inverted repeat sequences could be binding sites for cI or Cro homologs and the two divergent promoters could initiate transcription through the BK5-T equivalents of cI and cro.

Spontaneous deletion mutants of the Lactococcus lactis temperate bacteriophage BK5-T and localization of the BK5-T attP site.

Spontaneous deletion mutants of the temperate lactococcal bacteriophage BK5-T were obtained when the phage was grown vegetatively on the indicator strain Lactococcus lactis subsp. cremoris H2. One deletion mutant was unable to form stable lysogens, and analysis of this mutant led to the identification of the BK5-T attP site and the integrase gene (int). The core sequences of the BK5-T attP and host attB regions are conserved in a number of lactococcal phages and L. lactis strains.

Lactococcus lactis glyceraldehyde-3-phosphate dehydrogenase gene, gap: further evidence for strongly biased codon usage in glycolytic pathway genes.

The gene gap, encoding glyceraldehyde-3-phosphate dehydrogenase (EC 1.2.1.12), was isolated from a genomic library of Lactococcus lactis LM0230 DNA. Plasmids containing the L. lactis gene were able to complement a gap mutant of Escherichia coli. The nucleotide sequence of gap predicted a polypeptide chain of 337 amino acids for the enzyme and a subunit molecular mass of 36,043. The codon usage in gap and four other glycolytic genes from L. lactis showed a high degree of bias, when compared with 84 other chromosomal genes. Northern blot analysis of total L. lactis RNA showed that gap hybridized strongly with a 1.3 kb transcript. The 5' end of the transcript was determined by primer extension analysis to be a C located 35 bp upstream from the gap start codon. These transcript analyses, and the orientation of the open reading frames in the DNA flanking gap, indicated that in L. lactis gap is expressed on a monocistronic transcript. Nucleotide sequencing indicated that the DNA adjacent to gap did not encode other glycolytic pathway enzymes. The DNA sequence flanking gap contained two open reading frames (ORF156 and ORF211) of unknown function. The 3' end of a clpA homologue was identified in the sequence upstream of ORF156. The location of gap on the L. lactis DL11 chromosome map was determined to be between map coordinates 0.530 and 0.660.

The Lactococcus lactis triosephosphate isomerase gene, tpi, is monocistronic.

Triosephosphate isomerase (EC 5.3.1.1) from Lactococcus lactis was purified to electrophoretic homogeneity. Approximately 3 mg purified enzyme (specific activity 3300 U mg-1) was obtained from 70 g (wet wt) cells. In solution, triosephosphate isomerase (pI 4.0-4.4) was observed to exist as a homodimer (M(r) 57,000) of noncovalently linked subunits. The sequence of the first 37 amino acid residues from the NH2-terminus were determined by step-wise Edman degradation. This sequence, and that of a region conserved in all known bacterial triosephosphate isomerases, was used to design oligonucleotide primers for the synthesis of a lactococcal tpi probe by PCR. The probe was used to isolate a molecular clone of tpi from a lambda GEM11 library of L. lactis LM0230 DNA. The nucleotide sequence of tpi predicted a protein of 252 amino acids with the same NH2-terminal sequence as that determined for the purified enzyme and a subunit M(r) of 26,802 after removal of the NH2-terminal methionine. Escherichia coli cells harbouring a plasmid containing tpi had 15-fold higher triosephosphate isomerase activity than isogenic plasmid-free cells, confirming the identity of the cloned gene. Northern analysis of L. lactis LM0230 RNA showed that a 900 base transcript hybridized with tpi. The 5' end of the transcript was determined by primer extension analysis to be a G located 65 bp upstream from the tpi start codon. These transcript analyses indicated that in L. lactis, tpi is expressed on a monocistronic transcript. Nucleotide sequencing indicated that the DNA adjacent to tpi did not encode another Embden-Meyerhoff-Parnas pathway enzyme. The location of tpi on the L. lactis DL11 chromosome map was determined to be between map coordinates 1.818 and 1.978.

Genomic organization of Lactococci.

The genus Lactococcus contains four species of which L. lactis is the most thoroughly studied. Its genome is A+T-rich and consists of a circular chromosome of 2.0 to 2.7 Mbp, a wide range of plasmids, and frequently one or more prophages. Insertion sequence elements are commonly present in both the chromosome and the plasmids, while one conjugative transposon of 68 kbp has been described. Genetic maps of the chromosomes of a number of different L. lactis strains have been determined and found to differ quite significantly. For example, the maps of two L. lactis subsp. cremoris strains, MG1363 and FG2, have an inversion of approximately 40% of the chromosome when compared with the maps of two L. lactis subsp. lactis strains, DL11 and IL1403. Other differences indicative of smaller scale translocations and inversions are also found. Chromosomal rearrangements have also been induced in the laboratory by incubation of L. lactis cultures with infecting lytic phage and by treatment with mutagens. These results are indicative of a great deal of plasticity in the lactococcal genome.

Temporal transcription map of the Lactococcus lactis bacteriophage sk1.

Bacteriophage sk1 is a small isometric-headed lytic phage that infects Lactococcus lactis. The phage has a linear double-stranded DNA genome of 28 kbp, with cohesive ends. RNA was prepared from phage-infected L. lactis cells harvested at various intervals after infection, and the RNA molecules were resolved by electrophoresis. Northern blots of these gels were hybridized with sk1 DNA probes and the results obtained from these experiments, together with the results of primer extension analyses, enabled a transcription map of the phage genome to be prepared. Three classes of phage transcripts, designated as early, middle or late based on their time of appearance, were detected. Seven partially overlapping early transcripts were detected; these were transcribed from a 10 kbp region of the phage. The nine middle transcripts were derived from a 2 kbp region, limited by cos at one end and the start of the early transcripts at the other. The early and middle transcripts were transcribed divergently from a region mapping at 26 kbp on the sk1 physical map. The four late transcripts were derived from a 16 kbp region of the phage limited at one end by cos. The late transcripts were transcribed in the opposite direction to the early transcripts and three of the late transcripts terminated in the same region of the phage genome as three of the early transcripts.

Analysis of the cos region of the Lactococcus lactis bacteriophage sk1.

The location, structure and nature of the cos site of the Lactococcus lactis bacteriophage sk1 was determined using a Taq DNA polymerase runoff sequencing technique. The cos site contains a single-stranded 3' overhang of 11 nucleotides. The region surrounding cos contains several features which may be involved in the binding and catalytic action of a phage terminase. These include four putative terminase-binding sites which show some homology to lambda R-sites, an 11-bp direct repeat, a 10-bp inverted repeat, a string of eight consecutive C residues and six copies of the pentanucleotide, AATCT. The spacing between adjacent copies of the pentanucleotides would place them on the same side of the DNA helix.

Identification of a novel operon in Lactococcus lactis encoding three enzymes for lactic acid synthesis: phosphofructokinase, pyruvate kinase, and lactate dehydrogenase.

The discovery of a novel multicistronic operon that encodes phosphofructokinase, pyruvate kinase, and lactate dehydrogenase in the lactic acid bacterium Lactococcus lactis is reported. The three genes in the operon, designated pfk, pyk, and ldh, contain 340, 502, and 325 codons, respectively. The intergenic distances are 87 bp between pfk and pyk and 117 bp between pyk and ldh. Plasmids containing pfk and pyk conferred phosphofructokinase and pyruvate kinase activity, respectively, on their host. The identity of ldh was established previously by the same approach (R. M. Llanos, A. J. Hillier, and B. E. Davidson, J. Bacteriol. 174:6956-6964, 1992). Each of the genes is preceded by a potential ribosome binding site. The operon is expressed in a 4.1-kb transcript. The 5' end of the transcript was determined to be a G nucleotide positioned 81 bp upstream from the pfk start codon. The pattern of codon usage within the operon is highly biased, with 11 unused amino acid codons. This degree of bias suggests that the operon is highly expressed. The three proteins encoded on the operon are key enzymes in the Embden-Meyerhoff pathway, the central pathway of energy production and lactic acid synthesis in L. lactis. For this reason, we have called the operon the las (lactic acid synthesis) operon.

Stability analysis of the Lactococcus lactis DRC1 lactose plasmid using pulsed-field gel electrophoresis.

Pulsed-field agarose gel electrophoresis of SmaI digests of genomic DNA was used to examine lactose plasmid copy number and stability in Lactococcus lactis. In L. lactis strain DRC1, the plasmid was found to exist as a single-copy plasmid. Transconjugants of strain HID113 carrying this plasmid were unstable. Variants were isolated with improved phenotypic stability resulting from improved maintenance of the lactose plasmid or from integration of part of the plasmid into the lactococcal chromosome.