LactobaciUus casei HN14, which was isolated from homemade cheese, produces an extracellular, cell wall-bound proteinase. The HN14 proteinase can be removed from the cell envelope by washing the cells in a Ca2'-free buffer. The activity of the crude proteinase extract is inhibited by phenylmethylsulfonyl fluoride, showing that the enzyme is a serine-type proteinase. Considering the substrate specificity, the HN14 proteinase is similar to the lactococcal PI-type enzyme, since it hydrolyzes ,3-casein only. Lactobacillus casei HN14 appeared to be plasmid free, which suggests that the proteinase gene is chromosomally located. Chromosomal DNA of this strain hybridizes with DNA probes Ql (which contains a fragment of the prtM gene) and Q6 and Q92 (which contain fragments of the prtP gene); all three probes originated from the proteinase gene region of Lactococcus lactis subsp. cremoris Wg2. A restriction enzyme map of the proteinase region of Lactobacillus casei HN14 was constructed on the basis of hybridization experiments. Comparison of the restriction enzyme maps of the Lactobacillus casei HN14 proteinase gene region and those of lactococcal proteinase gene regions studied so far indicates that they are highly similar.
Exopolysaccharide-producing Lactobacilus casei CGll was isolated from soft, white, homemade cheese. In basal minimal medium, it produces a neutral heteropolysaccharide consisting predominantly of glucose (about 75%) and rhamnose (about 15%). Plasmid curing experiments revealed that exopolysaccharide production by strain CGll is linked to a plasmid approximately 30 kb in size.
S O J E V I C , I . S T R A H I N I C A N D L . T O P I S I R O V I C . 2001.The proteolytic activities of two natural isolates of thermophilic lactobacilli, Lactobacillus acidophilus BGRA43 and Lact. delbrueckii BGPF1, and Lact. acidophilus CH2 (Chr. Hansen's strain) and Lact. acidophilus V74 (Visby's strain), were compared. Results revealed that optimal pH for all four proteinases is 6á5, whereas temperature optimum varied among proteinases. Determination of caseinolytic activity done under optimal conditions for each strain revealed that the CH2 and V74 proteinases completely hydrolysed both a S1 -casein and b-casein, showing very low activity towards j-casein. The BGPF1 proteinase completely hydrolysed only b-casein. The BGRA43 proteinase completely hydrolysed all three casein fractions. The proteolytic activities of whole cells were inhibited by serine proteinase inhibitors, suggesting that all four strains produce serine proteinases. DNA±DNA hybridization and PCR analysis showed that BGPF1 contains the prtB-like proteinase gene. Characterized thermophilic strains BGPF1 and BGRA43 were successfully used as starter cultures for production of yoghurt and acidophilus milk, respectively.
Lactococcus lactis subsp. diacitilactis S50 produces a bacteriocin, designated bacteriocin S50, which has a narrow antibacterial spectrum. It was active only against Lactococcus species, including a nisin producer exhibiting a bactericidal effect. The activity of bacteriocin S50 was sensitive to proteases. It retained antimicrobial activity after being heated to 100°C for up to 60 min and in the pH range 2 to 11.
Lactobacillus acidophilus BGRA43 was selected from a set of human origin isolates of Lact. acidophilus strains for the highest growth rates and antagonistic effect against both Gram-positive and Gram-negative bacteria. The strain BGRA43 also exhibited an inhibitory effect on the growth of Clostridium sporogenes. Inhibition of this strain seems to be due to lactic acid production rather than hydrogen peroxide or bacteriocin. Growth of Lact. acidophilus BGRA43 in non-fat skim milk for 6 h at 37°C resulted in a lowering of the pH value to 4·53. Besides the fast acidification, this strain generated a high viscosity of skim milk. These characteristics make the strain BGRA43 attractive for acidophilus milk production. Lactobacillus acidophilus BGRA43 produces an extracellular proteinase. Whole cells efficiently degraded casein for 3 h at 37°C especially a-and b-casein fractions. Total DNA isolated from the strain BGRA43 did not show any hybridization with lactococcal proteinase probes indicating that this strain produces a distinctive proteinase.
TOPISIROVIC. iw5. Lactobacilli isolated from different natural sources were screened for the presence of cell envelope-associated proteinases (Prt' strains). Among them 17 of 75 tested isolates were Prt'. All Prt' strains were producers of a serine-type proteinase, since their proteolytic activity was inhibited by phenylmethylsulfonyl fluoride. Most of the natural isolates of mesophilic lactobacilli degraded only b-casein such as Lactobacillus paracasei subsp. paracasei strains BGLI 17 and BGLI 18 and Lact. rhamnosus BGEN1. Only Lact. divergens BG742 cleaved all three, a-, / Iand K-caseins, even in the presence of Ca2 + ions. Total DNA isolated from Lact. paracasei subsp. paracasei strains BGLI 17 and BGLI18 hybridized to the lactococcal proteinase gene probes originated from Lactococcus lactis subsp. cremoris Wg2. Hybridization could not be linked to the plasmid DNA, and pulse-field gel electrophoresis analysis suggested that the proteinase genes of these two strains are most probably chromosomally located.
Fragments of chromosomal DNA from Lactobacillus paracasei subsp. paracasei CG11 (formerly Lactobacillus casei CG11) capable of functioning as promoters were isolated using the broad host range, promoter-probe vector pGKV210. Five such fragments designated P61, P79, P80, P116, and P144 were completely sequenced and analyzed. Fragment P61 had the highest transcriptional efficiency in Escherichia coli and Lactobacillus reuteri whereas P80 was the most active in Lactococcus lactis. In general, the orders of the transcriptional strengths were almost identical in E. coli and Lactobacillus reuteri but different from that in Lactococcus lactis. Mapping of the 5' end of cat mRNA showed that different regions of fragments P79 and P144 were used as promoters in Lactococcus lactis than in E. coli and Lactobacillus reuteri. Analysis of these DNA sequences revealed that the putative -35 and -10 hexanucleotides resembled those of E. coli, Bacillus subtilis, and lactococci. The spacing between these two hexanucleotides and between the putative -10 hexanucleotide and the transcriptional start point (A residues predominated) ranged from 17 to 18 base pairs and from 5 to 7 base pairs, respectively. Each of the cloned Lactobacillus paracasei CG11 promoter-like fragments contained an AT-rich sequence upstream of the putative -35 region (from 60 to 73%).
Promoters were cloned from the chromosomal DNA of Lactococcus lactis subsp. locis NP4510 by using promoter-probe vector pGKV210. N-Methyl-N'-nitro-N-nitrosoguanidine-induced mutagenesis of L. lactis-(pBV413), with low-level expression of the cat-86 gene, resulted in enhanced expression. Subcloning and sequencing of the mutated plasmid designated pBV415 revealed that the mutation is located within the PstI-HindIII fragment containing the coding sequence of the cat-86 gene (the 10th CTG codon was replaced by a TTG; both code for leucine). A set of otherwise identical plasmids with four combinations of CTG and TTG codons at the 10th and 46th positions in the cat-86 gene were constructed by site-directed mutagenesis. These plasmids containing cat-86 derivatives displayed a significant variation in cat expression in L. lctis and E. coli. The data suggest that cat expression is dependent on the secondary structure of the cat mRNA. New cat-86 derivatives described here can be used in lactococci, in which they provide additional flexibility for promoter cloning.
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