Production of Bacteriocin ST33LD, Produced by Leuconostoc mesenteroides subsp. mesenteroides, as Recorded in the Presence of Different Medium Components

Summary Bacteriocin ST33LD, produced by Leuconostoc mesenteroides subsp. mesenteroides, is approximately 2.7 kDa in size and inhibits Enterococcus faecalis, Escherichia coli, Lactobacillus casei and Pseudomonas aeruginosa. Good growth was recorded in the presence of 10% (w/v) soy milk or 10% (w/v) molasses, but there was no bacteriocin production. Growth in MRS broth adjusted to pH 4.5 yielded low bacteriocin levels (800 AU/ml). However, the same medium adjusted to pH 5.0, 5.5 and 6.5, respectively, yielded 3200 AU/ml. Tween 80 decreased bacteriocin production by more than 50%. Growth in the presence of tryptone yielded maximal activity (12,800 AU/ml), whereas different combinations of tryptone, meat extract and yeast extract produced activity levels of 1600 AU/ml and less. Growth in the presence of 2.0% (w/v) sucrose, or maltose, yielded much higher levels of bacteriocin activity (12,800 AU/ml) compared to growth in the presence of 2.0% (w/v) glucose or lactose (6400 AU/ml). Lower yields were also recorded in the presence of fructose and mannose. KH₂PO₄ at 10.0% (w/v) stimulated bacteriocin production. Glycerol concentrations of 0.5% (w/v) and higher (up to 5.0%, w/v) repressed bacteriocin production by 50%. The addition of cyanocobalamin, thiamine and L-ascorbic acid to MRS broth (1.0 ppm) yielded 12,800 AU/ml bacteriocin, whereas the addition of DL-6,8-thioctic acid yielded only 6 400 AU/ml.     

Effect of Medium Components on Bacteriocin Production by Lactobacillus Pentosus ST151BR,a Strain Isolated from Beer Produced by the Fermentation of Maize,Barley and Soy Flour

Lactobacillus pentosus ST151BR, isolated from home-brewed beer, produces a 3.0 kDa antibacterial peptide (bacteriocin ST151BR) active against Lactobacillus casei, Lactobacillus sakei, Pseudomonas aeruginosa, Enterococcus faecalis and Escherichia coli. Treatment with Proteinase K or Pronase resulted in loss of activity. Bacteriocin levels of 6400 AU/ml were recorded in MRSbb (De Man-Rogosa-Sharpe broth without Tween 80) at pH 5.5, 6.0 and 6.5. The same growth conditions at pH 4.5 yielded only 1600 AU/ml bacteriocin. Inclusion of Tween 80 in the growth medium reduced bacteriocin production by more than 50%. Growth in the presence of tryptone or tryptone plus meat extract stimulated bacteriocin production, whereas much lower activity was recorded when the bacteria were grown in the presence of meat extract, yeast extract, tryptone plus yeast extract, meat extract plus yeast extract, or a combination of tryptone, meat extract and yeast extract. MRSbb supplemented with maltose, lactose or mannose (2.0%, w/v) yielded bacteriocin levels of 6400 AU/ml. Sucrose or fructose at these concentrations reduced the activity by 50 and 75%, respectively. Growth in the presence of 4.0%(w/v) glucose resulted in 50% activity loss. Glycerol levels as low as 0.1%(w/v) repressed bacteriocin production. Addition of cyanocobalamin, ascorbic acid, thiamine and thioctic acid (1.0 mg/l) to the growth medium did not lead to an increase in bacteriocin production. This revised version was published online in July 2006 with corrections to the Cover Date.     

Growth optimization of Pediococcus damnosus NCFB 1832 and the influence of pH and nutrients on the production of pediocin PD-1

AIMS: Optimization of the growth of Pediococcus damnosus NCFB 1832 and the production of pediocin PD-1 by traditional fermentation methods. METHODS AND RESULTS: Fermentation studies were conducted in De Man Rogosa and Sharpe (MRS) broth (Oxoid), preadjusted to specific pH values, and in MRS broth supplemented with various nitrogen sources, MnSO4, MgSO4 and Tween 80. The production of pediocin PD-1 closely followed the growth curve of Ped. damnosus NCFB 1832. Maximum levels of bacteriocin activity (3249 AU ml(-1)/O.D.max) were recorded in MRS broth with an initial pH of 6.7. In media with an initial pH of 4.5 bacteriocin activity as low as 222 AU ml(-1)/O.D.max was recorded. The highest bacteriocin activity was recorded in growth conditions allowing the greatest pH variation (highest DeltapH). The addition of bacteriological peptone (1.7%, w/v), MnSO4 (0.014%, w/v) and Tween 80 (3%, v/v) to MRS and adjustment of the medium pH to 6.7 resulted in a further increase in activity (from 3249 to 5078 AU ml(-1)/O.D.max). The same medium, but with an initial pH of 6.2, resulted in an 82.5% decrease in bacteriocin activity. CONCLUSIONS: Pediocin PD-1 production is not only stimulated by the presence of specific growth factors (e.g., bacteriological peptone, MnSO4 or Tween 80), but may also be stimulated by the lowering in pH during growth (highest DeltapH), and thus also the amount of organic acids produced. SIGNIFICANCE AND IMPACT OF THE STUDY: The production of pediocin PD-1 by the wild-type producer strain was significantly improved by using a defined medium and traditional fermentation methods.     

Growth conditions required for bacteriocin production by strains of <Emphasis Type="Italic">Staphylococcus aureus</Emphasis>

The influence of growth parameters on the production of bacteriocins (aureocins) by five strains of Staphylococcus aureus was investigated. These aureocins have a broad spectrum of activity and can inhibit important human and animal pathogens. All strains produced large inhibition zones upon the indicator strain when they were grown in rich media such as brain-heart infusion (BHI), N2GT and 2 × YT. Bacteriocin production was not influenced by the initial pH of the medium (6.0–8.0). At lower temperature (28 °C), there was a marked reduction in bacteriocin production. Incubation of the producers under anaerobiosis affected profoundly the production of two related bacteriocins, aureocins MB92 and 146L, and slightly increased the production of aureocins A53 and 215FN. Production of aureocins MB92 and 215FN was apparently abolished in media containing 2.5 g and 3.5 g Nacl/100 ml, respectively. Although production of the remaining aureocins was observed in all NaCl concentrations tested (0.5–7.5 g/100 ml), the larger inhibition zones were detected in media containing up to either 1.5 g (for aureocins A70 and 146L) or 2.5 g NaCl/100 ml (for aureocin A53). Aureocin 215FN could not be detected in the culture supernatant. For the remaining aureocins tested, the highest levels of bacteriocin production occurred in either the late-log or early stationary growth phase of cultures grown in BHI medium at 37 °C. Changes in environmental conditions can, therefore, have detrimental effects on the production of active aureocins. Such factors are relevant when considering the potential biotechnological applications of these substances and when testing new S. aureus isolates for bacteriocin production.     

Combined Effect of Bacteriocins on the Survival of Various Listeria Species in Broth and Meat System

The antilisterial efficiency of three bacteriocins from lactic acid bacteria, lactocin 705 (produced by L. casei CRL705, 17000 AU/ml), enterocin CRL35 (produced by E. faecium CRL35, 17000 AU/ml), and nisin (2000 IU/ml), was tested in broth, individually and in combination against Listeria monocytogenes and Listeria innocua. Both Listeria species showed an initial decrease in viable counts followed by the regrowth of the survivors after 1 h in the presence of each bacteriocin. A greater antilisterial effect was observed when the bacteriocins were combined in pairs, maximal inhibition being reached when nisin was involved. When a mix of the three bacteriocins was used, no survivors were observed after 24 h of incubation. Similar results were obtained when the bacteriocin combinations were tested in a meat system, indicating that the use of more than one LAB bacteriocin in combination may be effective in preventing the spontaneous emergence of a bacteriocin-resistant Listeria population. Received: 17 March 2000 / Accepted: 26 June 2000     

In vitro study on bacteriocin production of Enterococci associated with chickens

In recent years, the approach of using innovative strategies such as probiotics or bacteriocins for the prevention or treatment of bacterial infections has come into focus. The present study was undertaken to check in vitro ability of Enterococci-isolated from the gastrointestinal tract of chickens-to produce a bacteriocin-like substance and to describe some further probiotic properties in five selected Enterococcus faecium strains. All strains (n=17) were found to produce bacteriocin-like substances against 14 out of 20 indicator bacteria of animal, food or environmental origin. Selected E. faecium strains expressed sufficient survival by pH 3.0 after 3h, in the presence of 1% bile after 24h and they were sensitive to most of antimicrobials tested. All tested strains adhere to the human, canine and porcine intestinal mucus (between 1.5% and 9.2%). However, better adhesion ability was observed for the canine mucus. PCR detection of enterocin structural genes determined presence of enterocins A and P genes in all selected strains. Characterization of bacteriocin substance in detail was performed in E. faecium EF55. The EF55 strain produced a bacteriocin-like substance (during the late logarithmic and early stationary growth phase) with inhibitory activity mostly against Gram-positive bacteria (100-51,200 AU/mL) including Listeria monocytogenes. Proteinaceous character of the bacteriocin substance was confirmed (its inhibitory activity was lost after its treatment with proteases), it was found to be stable after heating (100 degrees C 10 min) and during 12 months storage at -20 degrees C. The highest inhibitory activity of bacteriocin produced by EF55 strain (growing in MRS) broth was achieved between pH 7.0 and 9.0.     

Properties of Bac W42, a bacteriocin produced by Bacillus subtilis W42 isolated from Cheonggukjang

Ten Bacillus strains with antimicrobial activities were isolated from Cheonggukjang produced at different parts in Korea. They all inhibited Listeria monocytogenes ATCC 19111 and nine inhibited Bacillus cereus ATCC 14579. Four isolates (W42, H27, SKE 12, and K21) showing strong inhibiting activities were identified as B. subtilis. B. subtilis W42 was the most inhibiting strain. The antimicrobial activity of culture supernatant from B. subtilis W42 was destroyed completely by proteinase K treatment, indicating that a bacteriocin was the responsible agent. The bacteriocin, Bac W42, was most stable at pH 7 and stable between pH 3-6 and 8-9. Bac W42 was stable up to 80°C. BHI (brain heart infusion) and TSB (tryptic soy broth) were the best media for the activity (320 AU/ml) followed by LB (160 AU/ml). Bac W42 was partially purified by column chromatographies. The specific activity was increased from 1,151.2 AU/ml to 9,043.5 AU/ml and the final yield was 26.3%. Bac W42 was 5.4 kDa in size as determined by SDS-PAGE. Bac W42 showed bactericidal activity against L. monocytogenes ATCC 19111.     

Optimization of bacteriocin production by Lactobacillus plantarum ST13BR, a strain isolated from barley beer

The cell-free supernatant containing bacteriocin ST13BR, produced by Lactobacillus plantarum ST13BR, inhibits the growth of L. casei, Pseudomonas aeruginosa, Enterococcus faecalis, Klebsiella pneumoniae and Escherichia coli. Based on tricine-SDS-PAGE, bacteriocin ST13BR is 10 kDa in size. Complete inactivation or significant reduction in bacteriocin activity was observed after treatment with Proteinase K, trypsin and pronase, but not with catalase or alpha-amylase. Low bacteriocin activity (200 AU/ml) was recorded in BHI medium, M17 broth, 10% (w/v) soy milk, and 2% and 10% (w/v) molasses, despite good growth. Maximal bacteriocin activity (6,400 AU/ml) was recorded after 23 h in MRS broth, but only at 30 degrees C. Tween 80 in MRS broth increased bacteriocin production by more than 50%. Meat extract or yeast extract as sole nitrogen source, or a combination of the two (1 : 1) in MRS broth, stimulated bacteriocin production (6,400 AU/ml). Only 50% activity (3,200 AU/ml) was recorded with tryptone as sole nitrogen source, whereas a combination of tryptone, meat extract and yeast extract yielded 6,400 AU/ml. Bacteriocin production was not stimulated by the addition of glucose at 2.0% w/v (3,200 AU/ml), nor 2% (w/v) fructose, sucrose, lactose or mannose, respectively (800 AU/ml). Activity levels less than 200 AU/ml were recorded in the presence of 0.05% to 0.5% (w/v) maltose. Maximal bacteriocin production (6,400 AU/ml) was recorded in the presence of 2% (w/v) maltose. Maltose at 4.0% (w/v) led to a 50% reduction of bacteriocin activity. The presence of 1.0% (w/v) and higher KH(2)PO(4), or glycerol at 0.2% (w/v) suppressed bacteriocin production.     

Medium components effecting bacteriocin production by two strains of Lactobacillus plantarum ST414BZ and ST664BZ isolated from boza

Bacteriocins ST414BZ and ST664BZ, produced by Lactobacillus plantarum, inhibited the growth of a number of lactic acid bacteria, Escherichia coli, Pseudomonas aeruginosa, Klebsiella pneumoniae and Enterobacter cloacae. Optimal production of bacteriocin ST664BZ (12 800 AU/mL) was recorded in MRS broth with an initial pH of 6.0 and 6.5. Bacteriocin ST414BZ was produced in MRS broth at lower pH values, ranging from 6.5 to 5.0. Low levels of bacteriocin activity were produced in BHI, M17, 10% (w/v) soy flour and 10% (w/v) molasses, suggesting that specific nutrients are required for optimal production. Bacteriocin ST414BZ production doubled (from 12 800 to 25 600 AU/mL) in MRS broth with tryptone as sole nitrogen source, or when glucose was replaced with maltose. Bacteriocin ST664BZ production, on the other hand, was less influenced by changes in nitrogen content, but increased two-fold (to 25 600 AU/mL) when glucose was replaced with sucrose, maltose or mannose, or when MRS broth was supplemented with 2.0 g/L KH₂ PO₄. Enrichment of MRS broth with vitamins B₁₂, B₁ or C did not stimulate production of the two bacteriocins. Growth in the presence of DL-6,8-thioctic acid increased bacteriocin ST664BZ production to 25 600 AU/mL. Concluded from these results, optimal levels of bacteriocins ST414BZ and ST664BZ will be produced in boza enriched with tryptone and maltose.     

Influence of growth conditions on production and activity of mesenterocin 5 by a strain of Leuconostoc mesenteroides

The effects of various parameters on production and activity of mesenterocin 5, a bacteriocin produced by Leuconostoc mesenteroides subsp. mesenteroides UL5, were investigated. Titres of bacteriocin and minimum inhibitory concentration values were determined by a critical dilution micromethod, using a sensitive strain of Listeria ivanovii as an indicator. Production of the antimicrobial compound was optimal at 37 and 40°C after 9 h of incubation, and was maximized in an aerobic fermentor maintained at pH 5.0. Tween 80 was a major factor in increasing mesenteroxin 5 production and specific production. Large quantities of bacteriocin could be obtained in whey and in whey permeate supplemented with yeast extract in the presence of the surfactant (0.1%). Most of the Listeria strains tested including L. monocytogenes were highly sensitive to the bacteriocin in the pH range 5.5 to 6.0 and at a temperature of 20 to 25°C.     

Optimized culture conditions for bacteriocin production by Pediococcus acidilactici LAB 5 and its characterization

A strain of Pediococcus acidilactici LAB 5 was isolated from vacuum-packed fermented meat product, in order to obtain a novel bacteriocin from food-grade organisms. Optimized culture conditions for bacteriocin production in different media (viz., MRS, TGE, TGE + buffer, TGE + Tween 80, and TGE + Tween 80 + buffer) and at different temperatures and pH conditions were reported. TGE + Tween 80 + buffer medium was found to be most effective for bacteriocin production (about 2400 AU/ml) by this strain, when incubated at 37 degrees C for 24 h. Bacteriocin, partially purified by adsorption-desorption method showed molecular mass of 10.3 kDa and produced prominent inhibition zone in activity gel. It showed significant storage stability both at high as well as in low temperatures for up to 6 months and retained its activity in a number of organic solvents, except in 2-mercaptoethanol. The treatment with amylase and lysozyme did not change its activity, but it lost its activity on proteinase K treatment. Antibacterial efficacy of bacteriocin was proved against some food spoilage and human pathogenic bacteria like Enterococcus, Leuconostoc, Listeria, Staphylococcus and Streptococcus.     

Effect of medium components on bacteriocin production by Lactobacillus plantarum strains ST23LD and ST341LD, isolated from spoiled olive brine

Bacteriocin ST23LD levels of 2930AU/OD were recorded in MRS broth (pH of 6.5) and in the presence of tryptone and yeast extract as sole nitrogen sources. Growth in MRS broth at an initial pH of 6.0 yielded only 1460AU/OD bacteriocin ST23LD. Activities of 5861AU/OD were recorded with maltose (20, 30 and 40 g/l) as sole carbon source and 9036AU/OD with the addition of 2.0-10.0 g/l KH2PO4. Bacteriocin ST341LD levels of 2850 and 2841AU/OD were recorded in MRS broth at an initial pH of 6.0 or 5.5, respectively. Only 709AU/OD was recorded in the same medium with an initial pH of 6.5. Bacteriocin ST341LD production was stimulated by the presence of tryptone. However, glucose at 10 and 40 g/l, or the presence of 5.0 or 10.0 g/l K2HPO4, resulted in a 50% reduction of bacteriocin activity. Glycerol in the growth medium repressed bacteriocin production. No increased bacteriocin production was recorded in medium supplemented with vitamins.     

Characterization of an antibacterial peptide produced by Brevibacterium linens

AIMS: The aim of this research was to investigate the antimicrobial activity produced by Brevibacterium linens ATCC 9175. METHODS AND RESULTS: A bacteriocin produced by the red smear cheese bacterium B. linens ATCC 9175 was identified. The antimicrobial activity was first produced at the exponential growth phase. A crude bacteriocin obtained from the culture supernatant fluid was inhibitory to some indicator strains. It inhibited the growth of Listeria monocytogenes ATCC 7644, B. linens ATCC 9172 and Corynebacterium fimi NCTC 7547, but was inactive against the Gram-negative bacteria and yeast tested. The bacteriocin was stable at 30 degrees C but the activity was lost when the temperature reached 50 degrees C. It was sensitive to the proteolytic action of trypsin, papain and pronase E and was active between pH 6.0 and 9.0. The bacteriocin was bactericidal to L. monocytogenes at 40 AU ml(-1). Bacteriostasis was observed for a low dose of bacteriocin (20 AU ml(-1)). CONCLUSIONS: An antibacterial peptide produced by B. linens was characterized, presenting potential for use as a biopreservative in food systems. SIGNIFICANCE AND IMPACT OF THE STUDY: The identification of a novel bacteriocin active against L. monocytogenes addresses an important aspect of food protection against pathogens and spoilage micro-organisms.     

Characterization of a new bacteriocin produced from a novel isolated strain of Bacillus lentus NG121

The new bacteriocin is produced from Bacillus lentus NG121 isolated from Khameera – a traditional fermented food from Himachal Pradesh, India which has been reported for the first time in the literature to produce bacteriocin and exhibited very high activity units of 20 × 10⁵ AU (Arbitrary Units)/ml. This bacteriocin was partially purified and was further characterized to assess its preservation characteristics. It showed strong antimicrobial activity against the most challenging and serious test indicators like Listeria monocytogens and Staphylococcus aureus. There was a drastic decrease up to 70% in viable cells of the indicators within the first 10 h of adding partially purified bacteriocin thus proving its bactericidal action. It could withstand the high heat of 100 °C for 10 min of heating time without losing any activity. A wide range of pH tolerance i.e. from 5.0–10.0 was expressed by this bacteriocin. It was found completely sensitive to proteolytic enzyme trypsin. The unique combination of all the above mentioned characteristics makes the bacteriocin of newly isolated Bacillus lentus NG121, a food grade bacteria, highly desirable for preservation of different food items in the food industry.     

Statistical optimization of physical parameters for enhanced bacteriocin production by L. casei

Antimicrobial proteinaceous compounds such as bacteriocins produced from Lactobacillus sp. are widely known. They have potential antimicrobial activities towards closely related bacteria and several pathogens associated with food spoilage and hence can be a potential food bio-preservative agent. Bacteriocin production requires optimized process, complex media and well-controlled physical conditions including pH and temperature. A probiotic strain of L. casei LA-1 isolated from mango pickle was used in the present study. The influence of physical parameters viz. temperature (15 ?? 45°C), pH (4.0 ?? 7.0), incubation time (up to 48 h) and inoculum size (0.7 ?? 2.0 O.D) on bacteriocin production was analyzed. The effect of all the parameters was first investigated using the one-factor-at-a-time method (OFAT) to see the significance of these parameters on bacteriocin production and then further optimized by response surface methodology (RSM). Following OFAT analysis, all factors were found to have a significant effect on bacteriocin production. Bacteriocin production of 2,844 AU/mL was obtained at temperature 37°C, pH 6.7 and inoculum size 1.8 O.D at an incubation time of 20 h and it was produced during the stationary phase of growth. Statistical analysis showed that three variables-pH, temperature and incubation time have significant effects on bacteriocin production. RSM proved to be a powerful tool in the optimization of bacteriocin production by L. casei LA-1 with a two-fold increase, giving a production of 4652.15 AU/mL at pH 7.19, temperature 33.3°C and incubation time of 22.2 h.     

Production of bacteriocins and siderophore-like activity by Azospirillum brasilense

Sixty Azospirillum strains were tested for their bacteriocin production ability; twenty-seven (45%) were able to produce bacteriocins and inhibited the growth of one or more indicator strains in solid medium. Mitomycin C treatment enhanced the proportion to 80%. Sometimes large growth inhibition zones were formed, but not when FeCl3 was added in the medium. These inhibition zones probably result from the activity of siderophores. Partially purified bacteriocins produced by four strains were inactivated at pH 4, but were very stable between pH 5 to 10; bacteriocins produced by three strains lost their activity between 55 and 80 degrees C. Loss or decrease in the bacteriocin activity was observed with pronase E treatment; trypsin, lysozyme and alpha-amylase did not have an effect on bacteriocin activity. These findings show that the antagonism among azospirilla was due principally to the bacteriocins and sometimes probably due to siderophores, but not to bacteriophages or other substances.     

Phenotypic diversity and technological properties of <Emphasis Type="Italic">Bacillus subtilis</Emphasis> species isolated from <Emphasis Type="Italic">okpehe</Emphasis>, a traditional fermented condiment

The Bacillus subtilis wild strains isolated from okpehe, a traditional fermented condiment used as seasoning in Nigeria, the reference and typed strains were investigated for their phenotypic diversity and their technological parameters with a view to obtain adequate data that would enable selection of appropriated starter cultures for vegetable protein fermentation in West Africa. All the 7 strains studied demonstrated diverse phenotypic characteristics and they were identified as Bacillus subtilis, based on the API 50 CHB combined with API 20E profile. Specific sugars that indicated a good hydrolytic potential of the wild strains were fermented. The highest proteinase activity of 90 AU/ml determined quantitatively was observed in the strain Bacillus subtilis BFE 5372, the proteinase was identified by the APIZYM gallery as chymotrypsin. Highest amylase activity of 13 AU/ml was noticed in strain Bacillus subtilis DSM 347 while only 4 strains produced polyglutamic acid with the strain Bacillus subtilis BFE 5359 producing the highest polyglutamate activity of 2.5 mm. Although strain Bacillus subtilis BFE 5301 did not release detectable polyglutamate, the strain demonstrated antagonism against different bacteria and the antimicrobial substance produced by strain Bacillus subtilis BFE 5301 was confirmed as a bacteriocin since its activities were lost after treatment with chymotrypsin and pepsin. The data generated showed the technological parameters that can aid selection of wild strains such as Bacillus subtilis BFE 5301, BFE 5359 and BFE 5372 for optimization of condiment production.     

Antimicrobial activity of enterocin EJ97 against 'Bacillus macroides/Bacillus maroccanus' isolated from zucchini purée

AIMS: Activity of the bacteriocin EJ97 produced by Enterococcus faecalis EJ97 against strains of 'Bacillus macroides/B. maroccanus' isolated from spoiled zucchini purée was investigated. METHODS AND RESULTS: The influence of several factors like bacteriocin concentration, incubation temperature, pH, growth medium and chemical perservatives on bacteriocin activity was investigated. Enterocin EJ97 [2 arbitrary units (AU) per millilitre] had a marked bactericidal effect on strain INRA P53-2 after 4 h of incubation at 37 degrees C, 24 h at 15 degrees C or 48 h at 4 degrees C. Activity was markedly reduced at pH values of 5.0 and 9.0, but was potentiated by sodium nitrite, sodium benzoate, sodium lactate and sodium tripolyphosphate. Inhibition of strain INRA P53-2 in a commercial vegetable purée required a 10-fold higher bacteriocin concentration. Strain EJ97 was able to grow and produce bacteriocin on vegetable purée, but no inhibition of strain INRA P53-2 was detected. CONCLUSIONS: The concentration-dependent bactericidal activity of enterocin EJ97 against strain INRA P53-2 was higher at 37 degrees C and neutral pH, and was potentiated by chemical preservatives. Although enterocin EJ97 was less active in vegetable purée, the concentrations providing bactericidal activity in this food matrix are practical for commercial use. SIGNIFICANCE AND IMPACT OF THE STUDY: Enterocin EJ97 may have a potential for use in the prevention of food spoilage caused by 'B. macroides/B. maroccanus'.     

Production of Extracellular Acid Proteases by Aspergillus Clavatus

The production of extracellular acid proteases from Aspergillus clavatus was evaluated in a culture filtrate medium, with different carbon and nitrogen sources. The fungus was cultivated at three different temperatures during 10 days. The proteolytic activity was determined on haemoglobin pH 5.0 at 37 °C. The highest acid proteolytic activity (80 U/ml) was observed in culture medium containing glucose and gelatin at 1%(w/v) at 30 °C at the third day of incubation. Cultures developed in Vogel medium with glucose at 2%(w/v) showed at about 45% of proteolytic activity when compared to the cultures with 1% of the same sugar. The optimum pH of enzymatic activity was 2.0 and the enzyme was stable at pH values ranging from 2.0 to 4.0. The optimum temperature was 40 °C and the half-lives at 40, 45 and 50 °C were 30, 10 and 5 min, respectively. This revised version was published online in July 2006 with corrections to the Cover Date.     

Characteristics of the bacteriocin produced by <Emphasis Type="Italic">Lactococcus lactis</Emphasis> subsp. <Emphasis Type="Italic">cremoris</Emphasis> CTC 204 and the effect of this compound on the mesophilic bacteria associated with raw beef

Summary >Screening for the bacteriocin production of strains of lactic acid bacteria from various meat and meat products resulted in the detection of a bacteriocin-producing Lactococcus lactis subsp. cremoris CTC 204, isolated from chicken. The bacteriocin inhibited not only closely related lactic acid bacteria (Lactobacillus helveticus), but also pathogenic microorganisms (Staphylococcus aureus, Listeria monocytogenes, Bacillus cereus, and Clostridium perfringens). It was inactivated by α-chymotrypsin, ficin, papain, and pronase E, but not by lipase or pepsin. This compound was heat stable even at autoclaving temperature (121°C for 10min) and was produced during refrigerated storage. It was also active over a wide pH range (2–10), but the highest activity was observed in the lower pH range. The results indicated that dipping raw beef in the bacteriocin produced by strain CTC 204 could contribute to the extension of the shelf life of refrigerated bovine meat.