Behavior of Listeria monocytogenes in wiener exudates in the presence of Pediococcus acidilactici H or pediocin AcH during storage at 4 or 25 degrees C.

Exudative fluids were collected from packages of five brands of all-beef wieners and inoculated to contain 10(4) to 10(5) CFU of a three-strain (Scott A, V7, and 101M) mixture of Listeria monocytogenes per ml. Listeriae were inactivated (decrease of 0.61 to 3.8 log10 CFU/ml) in all five exudates held at 4 degrees C for 29 days. L. monocytogenes grew (increase of 1.7 to 3.6 log10 CFU/ml) in two of five exudates held at 25 degrees C for 6 days. Exudate was inoculated with a derivative of Pediococcus acidilactici H (designated JBL1095) or treated with pediocin AcH (a bacteriocin) as a novel approach to control the growth of L. monocytogenes in wiener exudates. Initially, pediocin AcH caused rapid death (decrease of 0.74 log10 CFU/ml in 2 h) of L. monocytogenes in exudate held at 4 degrees C, but thereafter the inactivation was similar to that in control exudate (L. monocytogenes only) or exudate containing L. monocytogenes plus JBL1095. At 25 degrees C, L. monocytogenes grew in the presence of JBL1095 during the first 64 h of incubation, but thereafter the numbers of the pathogen decreased appreciably (5.84 log10 CFU/ml in 3 days). In the presence of pediocin AcH, there was a gradual decrease in numbers of L. monocytogenes throughout the storage period at 25 degrees C. These data indicate that added biopreservatives can potentiate and amplify the intrinsic listeriostatic or listericidal activity of wiener exudate.     

Antigenic property of pediocin AcH produced by Pediococcus acidilactici H

Pediocin AcH, a bacteriocin of Pediococcus acidilactici H, inhibits the growth of several food spoilage and pathogenic bacteria. The antigenic property of partially purified pediocin AcH was tested by immunizing mice and a rabbit. Pediocin AcH was not immunogenic in these animals as determined by immunoblotting even after conjugation to bovine serum albumin. The non-immunogenic nature of pediocin AcH, its non-toxicity to laboratory animals and its hydrolysis by gastric proteolytic enzymes may be considered favourably in its possible use as a food preservative.     

Antigenic property of pediocin AcH produced by Pediococcus acidilactici H

Pediocin AcH, a bacteriocin of Pediococcus acidilactici H, inhibits the growth of several food spoilage and pathogenic bacteria. The antigenic property of partially purified pediocin AcH was tested by immunizing mice and a rabbit. Pediocin AcH was not immunogenic in these animals as determined by immunoblotting even after conjugation to bovine serum albumin. The non-immunogenic nature of pediocin AcH, its non-toxicity to laboratory animals and its hydrolysis by gastric proteolytic enzymes may be considered favourably in its possible use as a food preservative.     

Mode of action of pediocin AcH from Pediococcus acidilactici H on sensitive bacterial strains

The peptide, pediocin AcH, from Pediococcus acidilactici H binds to the cell surface of Lactobacillus plantarum NCDO 955, its resistant mutant and several other sensitive and resistant Gram-positive bacteria but not to Gram-negative bacteria. Sensitive cells, following treatment with pediocin AcH, lost intracellular K ions, u.v.-absorbing materials, became more permeable to ONPG and, in some strains, lysed. Binding of pediocin AcH was maximum at pH 6.0. Anions of several salts inhibited binding of pediocin AcH but this was overcome by increased concentrations of pediocin AcH. Treatment of sensitive cells with 1% SDS, 4 mol/1 guanidine-HCl, several organic solvents and enzymes did not reduce subsequent binding of pediocin AcH. Partially purified cell wall from a sensitive strain was also able to bind pediocin AcH. However, treatment of the cell walls to remove lipoteichoic acid prevented binding. These molecules might, therefore, be one of the binding sites of pediocin AcH.     

Nucleotide and amino acid sequence of pap-gene (pediocin AcH production) in Pediococcus acidilactici H

N-terminal analysis of purified pediocin AcH produced a partial sequence of 23 amino acids. This sequence matched perfectly with a segment of 23 amino acids in a 62 amino acid molecule generated from the 186 nucleotide sequence open reading frame in a Hind III fragment in pSMB74 encoding pap-gene (pediocin AcH production). It is suggested that the molecule is translated as inactive prepediocin AcH of 62 amino acids. Then through enzymatic modifications the leader segment of 18 amino acids is removed from the NH2-terminal. The remaining segment of 44 amino acids is active pediocin AcH of 4628 M(r).     

Factors influencing immunity and resistance of Pediococcus acidilactici to the bacteriocin, pediocin AcH

In pediocin AcH producing Pediococcus acidilactici strains the genes for both the production of pediocin and immunity against it are encoded in an 8.9 kb plasmid pSMB74. Following loss of this plasmid, the variants lost the ability to produce pediocin AcH, but some retained the resistance against it. This resistance was a transient trait, acquired while nonproducing cells grew in the presence of pediocin AcH but lost when the cells were grown in the absence of it.     

Sub-lethal damage of Listeria monocytogenes after long-term chilled storage at 4 degrees C

The possibility that long term in vitro chilled storage may result in sub-lethal damage to Listeria monocytogenes cells was investigated by comparing growth of chill-stored (starvation at 4 degrees C) and fresh cultures on selective and non-selective media. Growth of freshly grown cells was minimally (3-8%) affected by selective LSAMM agar compared with non-selective Brain Heart Infusion agar. In contrast, numbers of chill-stored strains were reduced by greater than 99% after direct plating on the same selective and non-selective media. Furthermore, chill-stored strains were able to grow in standard selective broth (Listeria Selective broth and Fraser broth) only if undiluted inocula (approximately 10(5)-10(6) cfu ml-1) were used, whereas they were capable of growth in Brain Heart Infusion broth even when the lowest dilutions were used (approximately 10(1) cfu ml-1). The potential public health consequences of this finding for the isolation of Listeria monocytogenes from foods is considered.     

Mild heat treatment of lettuce enhances growth of Listeria monocytogenes during subsequent storage at 5 degrees C or 15 degrees C

AIMS: The objective of this study was to determine the influence of mild heat treatment, storage temperature and storage time on the survival and growth of Listeria monocytogenes inoculated onto cut iceberg lettuce leaves. METHODS AND RESULTS: Before or after inoculation with L. monocytogenes, cut iceberg lettuce leaves were dipped in water (20 or 50 degrees C) containing or not 20 mg l(-1) chlorine, for 90 s, then stored at 5 degrees C for up to 18 days or 15 degrees C for up to 7 days. The presence of 20 mg l(-1) chlorine in the treatment water did not significantly (alpha=0.05) affect populations of the pathogen, regardless of other test parameters. The population of L. monocytogenes on lettuce treated at 50 degrees C steadily increased throughout storage at 5 degrees C for up to 18 days. At day 10 and thereafter, populations were 1.7-2.3 log10 cfu g(-1) higher on lettuce treated at 50 degrees C after inoculation compared with untreated lettuce or lettuce treated at 20 degrees C, regardless of chlorine treatment. The population of L. monocytogenes increased rapidly on lettuce stored at 15 degrees C. At 2 and 4 days, significantly higher populations were detected on lettuce that had been treated at 50 degrees C, compared with respective samples that had been treated at 20 degrees C, regardless of inoculation before or after treatment, or the presence of 20 mg l(-1) chlorine in the treatment water. CONCLUSIONS: The results clearly demonstrated that mild heat treatment of cut lettuce leaves enhances the growth of L. monocytogenes during subsequent storage at 5 or 15 degrees C. SIGNIFICANCE AND IMPACT OF THE STUDY: Mild heat treatment of cut lettuce may result in a prolonged shelf life as a result of delaying the development of brown discoloration. However, heat treatment also facilitates the growth of L. monocytogenes during storage at refrigeration temperature, thereby increasing the potential risk of causing listeriosis.     

Complete nucleotide sequence of pSMB 74, a plasmid encoding the production of pediocin AcH in Pediococcus acidilactici

Several Pediococcus acidilactici strains produce a plasmid-encoded bacteriocin, pediocin AcH. Previous studies have shown that this plasmid, designated as pSMB 74, encodes genes associated with the production of prepediocin, its post-translation processing to pediocin AcH, transmembrane translocation of these molecules, and immunity of producer cells against pediocin AcH. We report here the complete nucleotide sequence of pSMB 74. The plasmid has a total of 8877 bp. Four genes have been located on pSMB 74. The genes are arranged in a gene cluster of 3500 bp and share a common promoter and rho-independent stem-loop terminator. The four genes, each with independent ribosome binding sites (rbs), initiation and termination codons and spacer sequences in between, were designated as pap A, pap B, pap C and pap D and encode respectively for proteins of 62, 112, 174 and 724 amino acids. The results of this study can be useful either to introduce a suitable marker at a unique restriction site in pSMB 74 and use it as a vector or to clone the pap gene cluster in a suitable plasmid and transform desirable strains for pediocin AcH production. The gene sequence has been submitted to Gene Bank (Acc. No. U02482).     

Survival of Listeria monocytogenes in yogurt during storage at 4°C

Cows' milk was inoculated with ca 10³and 10⁷cfu/ml Listeria monocytogenes. After fermentation at 42°C for 0–5 h, the yogurt was stored at 4°C. Low and high inocula survived for 48 h and 7 d, respectively; L. monocytogenes cells were not detectable by direct plating or cold-enrichment after 5 and 15 d, respectively. In low inoculum samples, initial pH at the time of refrigeration was 4·9; the final pH at the time of last sampling was 4·2. In the samples with high inoculum the pH decreased from 5·0 to 4·2.     

Analysis of the pediocin AcH gene cluster from plasmid pSMB74 and its expression in a pediocin-negative Pediococcus acidilactici strain.

The 3,500-bp pap operon in the 8,877-bp plasmid pSMB74 contains a cluster of four genes, papABCD, of which papA encodes prepediocin (A. M. Motlagh, M. Bukhtiyarova, and B. Ray, Lett. Appl. Microbiol. 18:305-312, 1994). The cluster without the promoter was cloned in the shuttle vector pHPS9. An Escherichia coli strain and a pediocin-sensitive Pediococcus acidilactici strain transformed with the recombinant plasmid, pMBR1.0, produced pediocin AcH. Deletion analysis by introducing mutations in the four genes in pMBR1.0 revealed that only papA and papD were required for pediocin AcH production and that the gene product of papD has both translocation and processing functions. In the transformed minicells of E. coli chi 925 the proteins of the pap cluster were synthesized, indicating no polar effect due to deletion.     

Influence of Growth Conditions on the Production of a Bacteriocin, Pediocin AcH, by Pediococcus acidilactici H

The influence of growth parameters on the production of pediocin AcH by Pediococcus acidilactici H was studied. This strain produced large quantities of pediocin AcH in TGE broth (Trypticase [1%], glucose [1%], yeast extract [1%], Tween 80 [0.2%], Mn²⁺ [0.033 mM], Mg²⁺ [0.02 mM] [pH 6.5]) within 16 to 18 h at 30 to 37°C (final pH, 3.6 to 3.7). Pediocin AcH production was negligible when the pH of the medium was maintained at 5.0 or above, even in the presence of high cell mass.     

Mapping of pSMB74, a plasmid-encoding bacteriocin, pediocin AcH, production (Pap+) by Pediococcus acidilactici H

Plasmids encoding bacteriocin production phenotype in four Pediococcus acidilactici strains and their derivatives were examined for restriction enzyme cleavage patterns and found to produce similar fragments. A restriction map of this plasmid, pSMB74, has been constructed.     

Collapse of the proton motive force in Listeria monocytogenes caused by a bacteriocin produced by Pediococcus acidilactici.

The effect of pediocin JD, a bacteriocin produced by Pediococcus acidilactici JD1-23, on the proton motive force and proton permeability of resting whole cells of Listeria monocytogenes Scott A was determined. Control cells, treated with trypsin-inactivated bacteriocin at a pH of 5.3 to 6.1, maintained a pH gradient and a membrane potential of approximately 0.65 pH unit and 75 mV, respectively. However, these gradients were rapidly dissipated in cells after exposure to pediocin JD, even though no cell lysis had occurred. The pH gradient and membrane potential of the producer cells were also unaffected by the bacteriocin. Whole cells treated with bacteriocin were twice as permeable to protons as control cells were. The results suggest that the inhibitory action of pediocin JD against L. monocytogenes is directed at the cytoplasmic membrane and that inhibition of L. monocytogenes may be caused by the collapse of one or both of the individual components of the proton motive force.     

Collapse of the proton motive force in Listeria monocytogenes caused by a bacteriocin produced by Pediococcus acidilactici.

The effect of pediocin JD, a bacteriocin produced by Pediococcus acidilactici JD1-23, on the proton motive force and proton permeability of resting whole cells of Listeria monocytogenes Scott A was determined. Control cells, treated with trypsin-inactivated bacteriocin at a pH of 5.3 to 6.1, maintained a pH gradient and a membrane potential of approximately 0.65 pH unit and 75 mV, respectively. However, these gradients were rapidly dissipated in cells after exposure to pediocin JD, even though no cell lysis had occurred. The pH gradient and membrane potential of the producer cells were also unaffected by the bacteriocin. Whole cells treated with bacteriocin were twice as permeable to protons as control cells were. The results suggest that the inhibitory action of pediocin JD against L. monocytogenes is directed at the cytoplasmic membrane and that inhibition of L. monocytogenes may be caused by the collapse of one or both of the individual components of the proton motive force.     

Behavior of Listeria monocytogenes during fabrication and storage of experimentally contaminated smoked salmon

Experiments were carried out to examine the behavior of Listeria monocytogenes in the course of fabrication and storage of smoked salmon. In three trials, raw salmon fillets were surface inoculated with L. monocytogenes, marinated, smoked at 26 to 30 degrees C, and stored at 4 or 10 degrees C for up to 30 days. At different times during the fabrication and storage, samples were taken and, by means of the three-tube most probable number (MPN) method, quantitatively analyzed for the concentration of L. monocytogenes. The initial Listeria levels in the raw fillets were 10(4) MPN/g in trial 1, 10(1) MPN/g in trial 2, and 10(2) MPN/g in trial 3. During the fabrication, neither an increase nor a decrease of the inoculated quantities was observed. During the storage, however, a significant growth was measured in two of three trials; in trial 1, a 2.5 log10 MPN/g increase and in trial 3, an increase of even 4.5 log10 MPN/g. In the second trial, the Listeria level remained about the same. The results indicate the importance of preventing pre- and postprocessing contamination of L. monocytogenes in raw and smoked salmon. Because a significant increase of L. monocytogenes was measured during storage, there might be an increasing risk of infection for the consumer by storing such fish for a long time.     

Behavior of Listeria monocytogenes during fabrication and storage of experimentally contaminated smoked salmon.

Experiments were carried out to examine the behavior of Listeria monocytogenes in the course of fabrication and storage of smoked salmon. In three trials, raw salmon fillets were surface inoculated with L. monocytogenes, marinated, smoked at 26 to 30 degrees C, and stored at 4 or 10 degrees C for up to 30 days. At different times during the fabrication and storage, samples were taken and, by means of the three-tube most probable number (MPN) method, quantitatively analyzed for the concentration of L. monocytogenes. The initial Listeria levels in the raw fillets were 10(4) MPN/g in trial 1, 10(1) MPN/g in trial 2, and 10(2) MPN/g in trial 3. During the fabrication, neither an increase nor a decrease of the inoculated quantities was observed. During the storage, however, a significant growth was measured in two of three trials; in trial 1, a 2.5 log10 MPN/g increase and in trial 3, an increase of even 4.5 log10 MPN/g. In the second trial, the Listeria level remained about the same. The results indicate the importance of preventing pre- and postprocessing contamination of L. monocytogenes in raw and smoked salmon. Because a significant increase of L. monocytogenes was measured during storage, there might be an increasing risk of infection for the consumer by storing such fish for a long time.     

Short-term storage of rabbit embryos at 4 degrees C

A simple method for storing preimplantation mammalian embryos was tested under conditions which could be easily maintained inside an ordinary refrigerator set at 4 degrees C. No significant loss of viability occurred when rabbit embryos were stored at 4 degrees C for 7 days and either cultured in vitro at 37 degrees C or transferred to recipient does. Significant losses occurred when embryos were stored for 10 days or longer before culture at 37 degrees C (P < .01). Stored embryos transferred to recipients had a significantly longer average gestation period than embryos transferred without cold storage (P < .05).     

Enhanced control of Listeria monocytogenes by in situ-produced pediocin during dry fermented sausage production.

To determine whether pediocin is produced and has effective antilisterial activity during food fermentation, six sausage fermentation trials were conducted with antibiotic-resistant, pediocin-producing (Bac+) Pediococcus acidilactici PAC 1.0 (Strr Rifr) and an isogenic pediocin-negative (Bac-) derivative used as a control. Meat was inoculated (ca. 10(5) CFU/g) with a composite of five Listeria monocytogenes strains, each electrotransformed with pGK12 (Cmr Emr). P. acidilactici and L. monocytogenes populations were selectively enumerated by plating on media with antibiotics. This study indicated that the dry sausage fermentation process can reduce L. monocytogenes populations. Effective inactivation of L. monocytogenes was observed when the pH at the end of the fermentation portion of the process was less than 4.9. Pediocin was responsible for part of the antilisterial activity during the fermentation in each of the six trials. Furthermore, inhibition of L. monocytogenes during drying was enhanced in the presence of pediocin in the three trials in which L. monocytogenes could be detected throughout the drying process. Thus, pediocin production contributed to an increase in safety during both the fermentation and drying portions of sausage manufacturing.