Georges Novel

Evidence for two bacteriocins produced by Carnobacterium piscicola and Carnobacterium divergens isolated from fish and active against Listeria monocytogenes

Lactic acid bacteria (LAB) isolated from fish products (fresh fish, smoked and marinated fish, fish intestinal tract) were screened for bacteriocin production and immunity in conditions eliminating the effects of organic acids and hydrogen peroxide. Twenty-two isolates which were found to produce bacteriocin-like compounds were identified as Carnobacteria, Lactococci and Enterococci on the basis of morphological examination, gas production from glucose, growth temperatures, configuration of lactic acid, carbohydrates fermentation and deamination of arginine. Two Carnobacteria named V1 and V41 were selected for further studies and identified by DNA-DNA hybridization as Carnobacterium piscicola and Carnobacterium divergens , respectively. Their respective bacteriocins named piscicocin V1 and divercin V41 were heat-resistant and sensitive to various proteolytic enzymes. These bacteriocins were active against Listeria monocytogenes and exhibited a different spectrum of activity against LAB. Both bacteriocins had a bactericidal and non-bacteriolytic mode of action. Maximum production of piscicocin V1 and divercin V41 in Man Rogosa Sharpe (MRS) medium broth occurred at the beginning of the stationary phase and was higher at 20°C than at 30°C. When the cultures were maintained at pH 6.5, bacteriocin production was significantly increased.

Effect of glucose oxidase activity on corrosion potential of stainless steels in seawater

In natural seawater the free corrosion potentials of stainless steels increases depending on the presence of oxygen and microorganisms. One of the mechanisms to explain this phenomenon could be the production of microbial enzymes able to catalyse oxygen reduction in the biofilm. This hypothesis has been tested by adding a microbial enzyme, glucose oxidase, to sterile seawater.

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 analysis of the replication region of the theta-replicating plasmid pUCL287 from Tetragenococcus (Pediococcus) halophilus ATCC33315

Abstract The complete nucleotide sequence of the 8.7-kb theta-replicating plasmid pUCL287 from Tetragenococcus halophilus (formerly Pediococcus halophilus) ATCC33315 has been determined. The replication region was identified and analyzed. Its nucleotide sequence contains an untranslated region, the replication origin, followed by two open reading frames (ORFs) encoding two proteins of 311 (RepA287) and 168 (RepB287) amino acids, respectively. Evidence is presented to show that RepA287 represents the plasmid replication protein. RepB287, which is non-essential for replication, is involved in the plasmid copy-number control and segregational stability. The roles of lactococcal proteins homologous to RepB287 have not been defined so far. Nevertheless, the structural organization of the pUCL287 replication region is remarkably similar to those of well known theta-replicating lactococcal plasmids despite the absence of homology of the replication origin and of the replication protein, and this suggests that pUCL287 uses the same mechanism of replication. Nucleotide sequence comparisons show that pSMB74, a pediococcal plasmid encoding bacteriocin production, is a member of the pUCL287 replicon family.

Isolation and structural analysis of the phospho-β-galactosidase gene from Streptococcus lactis Z268

A 4.4-kb XhoI fragment of Streptococcus lactis L13 (Z268) lactose plasmid pUCL13, containing the beta-D-phosphogalactoside galactohydrolase (P-beta Gal; EC 3.2.1.85)-coding gene has been cloned in Escherichia coli. Further subcloning and deletion of this fragment allowed localization of the P-beta Gal-coding gene (pbg) on a minimal 1.8-kb segment. Expression of P-beta Gal activity was constitutive and was not regulated by glucose in E. coli. The presence of P-beta Gal activity was correlated with the production of a 56.5-kDa protein in E. coli minicells. The nucleotide sequence of the cloned gene was determined and potential promoter structural elements were identified.

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 Emr, and selecting for Emr 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.

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.

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.

DNA-DNA hybridizations among lactic streptococcal temperate and virulent phages belonging to distinct lytic groups

SummaryTen lactic streptococcal temperate phages and eight lactic streptococcal virulent phages classified on the basis of host range were differentiated by DNA-DNA hybridization. Virulent phages were classified in two distinct homology groups and temperate phages in a single one. In both temperate and virulent phages, no correlation was found between DNA homology groups and lytic groups. For most of the virulent phages, no DNA-DNA hybridization occurred with the temperature phages; however, partial sequence homology was found with DNAs from two virulent phages and four temperate phages.

Segregational stability and copy number of the theta-type lactococcal replicon Rep22 in Lactococcus

Rep22 is the replication region of the lactococcal theta replicating pUCL22 plasmid. The copy number of Rep22-based plasmids in Lactococcus was determined by using a chromosomal DNA fragment from Lactococcus lactis subsp. lactis MMS368 as reference. Segregational behavior appeared to be linked to copy number and therefore indicated random distribution of copies to daughter cells. Nevertheless, an active partitioning system was detected in the parental plasmid pUCL22. A pUCL22 138-bp DNA restriction fragment bearing a perfect 18-bp inverted repeat was involved in the improvement of Rep22-based plasmid segregational stability during discontinuous exponential growth.