Yeasts isolated from industrial maltings can suppress <Emphasis Type="Italic">Fusarium</Emphasis> growth and formation of gushing factors

Fusarium infection of barley and malt can cause severe problems in the malting and brewing industry. In addition to being potential mycotoxin producers, Fusarium fungi are known to cause beer gushing (spontaneous overfoaming of beer). Cereal-derived bacteria and yeasts are potential biocontrol agents. In this study, the antifungal potential of selected yeasts (12 strains) derived from the industrial malting ecosystem was studied in vitro with a plate-screening assay. Several ascomycetous yeast strains showed antagonistic activity against field and storage moulds, Pichia anomala being the most effective strain. The effects of P. anomala VTT C-04565 (C565) were examined in laboratory scale malting with naturally contaminated barley exhibiting gushing potential. P. anomala C565 restricted Fusarium growth and hydrophobin production during malting and prevented beer gushing. Grain germination was not disturbed by the presence of yeast. Addition of P. anomala C565 into the steeping seemed to retard wort filtration, but the filtration performance was recovered when yeast culture was combined with Lactobacillus plantarum VTT E-78076. Well-characterized microbial cultures could be used as food-grade biocontrol agents and they offer a natural tool for tailoring of malt properties.     

A novel DNA extraction and duplex polymerase chain reaction assay for the rapid detection of Prototheca zopfii genotype 2 in milk

Aims: To develop a PCR‐based assay to detect Prototheca zopfii (P. zopfii) and its mastitis‐related subtype (genotype 2) directly from milk samples. Methods and Results: The DNA extraction method herein is based on the lysing properties of chemical agents, mechanical grinding and DNA‐binding properties of silica particles; this method was developed to rapidly extract DNA directly from P. zopfii in bovine milk. Two pairs of primers specific for P. zopfii and genotype 2 were used in the duplex PCR, and a sensitivity test showed that the detection level was 5 × 10² colony‐forming units (CFU) ml^?1 for P. zopfii and 5 × 10³ CFU ml^?1 for genotype 2. Furthermore, a practical survey of 23 milk samples showed that the assay produced results that were in accordance with those obtained by the conventional microbiology method. Conclusions: The DNA extraction method is effective in isolating sufficient quantities of DNA from P. zopfii in milk for PCR analysis. The PCR assay is economical, sensitive and more rapid than the conventional culture method. Significance and Impact of the Study: The assay could be used as an alternative method for the rapid the detection of bovine mastitis resulting from P. zopfii genotype 2.     

The development of loop-mediated isothermal amplification combined with lateral flow dipstick for detection of Vibrio parahaemolyticus

Aims: The current study was aimed to develop a loop‐mediated isothermal amplification (LAMP) combined with amplicon detection by chromatographic lateral flow dipstick (LFD) assay for rapid and specific detection of Vibrio parahaemolyticus. Methods and Results: Biotinylated LAMP amplicons were produced by a set of four designed primers that recognized specifically the V. parahaemolyticus thermolabile haemolysin (tlh) gene followed by hybridization with an FITC‐labelled probe and LFD detection. The optimized time and temperature conditions for the LAMP assay were 90 min at 65°C. The LAMP–LFD method accurately identified 28 isolates of V. parahaemolyticus but did not detect 24 non‐parahaemolyticus Vibrio isolates and 35 non‐Vibrio bacterial isolates. The sensitivity of LAMP–LFD for V. parahaemolyticus detection in pure cultures was 120 CFU ml^?1. In the case of spiked shrimp samples without enrichment, the detection limit for V. parahaemolyticus was 1·8 × 10³ CFU g^?1 or equivalent to 3 CFU per reaction while that of conventional PCR was 30 CFU per reaction. Conclusions: The established LAMP–LFD assay targeting tlh gene was specific, rapid and sensitive for identification of V. parahaemolyticus. Significance and Impact of the Study: The developed LAMP–LFD assay provided a valuable tool for detection of V. parahaemolyticus and can be used effectively for identification of V. parahaemolyticus in contaminated food sample.     

Detection of Laribacter hongkongensis using species-specific duplex PCR assays targeting the 16S rRNA gene and the 16S-23S rRNA intergenic spacer region (ISR)

Aims: For the rapid detection of Laribacter hongkongensis, which is associated with human community‐acquired gastroenteritis and traveller’s diarrhoea, we developed a duplex species‐specific PCR assay. Methods and Results: Full‐length of the 16S–23S rRNA intergenic spacer region (ISR) sequences of 52 L. hongkongensis isolates were obtained by PCR‐based sequencing. Two species‐specific primer pairs targeting 16S rRNA gene and ISR were designed for duplex PCR detection of L. hongkongensis. The L. hongkongensis species‐specific duplex PCR assay showed 100% specificity, and the minimum detectable level was 2·1 × 10^?2 ng μl^?1 genomic DNA which corresponds to 5000 CFU ml^?1. Conclusions: The high specificity and sensitivity of the assay make it suitable for rapid detection of L. hongkongensis. Significance and Impact of the Study: This species‐specific duplex PCR method provides a rapid, simple, and reliable alternative to conventional methods to identify L. hongkongensis and may have applications in both clinical and environmental microbiology.     

Use of zero-valent iron biosand filters to reduce Escherichia coli O157:H12 in irrigation water applied to spinach plants in a field setting

Aims:  Zero‐valent iron (ZVI) filters may provide an efficient method to mitigate the contamination of produce crops through irrigation water. Methods:  A field‐scale system was utilized to evaluate the effectiveness of a biosand filter (S), a biosand filter with ZVI incorporated (ZVI) and a control (C, no treatment) in decontaminating irrigation water. An inoculum of c. 8·5 log CFU 100 ml^?1 of Escherichia coli O157:H12 was introduced to all three column treatments in 20‐l doses. Filtered waters were subsequently overhead irrigated to ‘Tyee’ spinach plants. Water, spinach plant and soil samples were obtained on days 0, 1, 4, 6, 8, 10, 13 and 15 and analysed for E. coli O157:H12 populations. Results:  ZVI filters inactivated c. 6 log CFU 100 ml^?1E. coli O157:H12 during filtration on day 0, significantly (P < 0·05) more than S filter (0·49 CFU 100 ml^?1) when compared to control on day 0 (8·3 log CFU 100 ml^?1). On day 0, spinach plants irrigated with ZVI‐filtered water had significantly lower E. coli O157 counts (0·13 log CFU g^?1) than spinach irrigated with either S‐filtered (4·37 log CFU g^?1) or control (5·23 log CFU g^?1) water. Soils irrigated with ZVI‐filtered water contained E. coli O157:H12 populations below the detection limit (2 log CFU g^?1), while those irrigated with S‐filtered water (3·56 log CFU g^?1) were significantly lower than those irrigated with control (4·64 log CFU g^?1). Conclusions:  ZVI biosand filters were more effective in reducing E. coli O157:H12 populations in irrigation water than sand filters. Significance and Impact of the Study:  Zero‐valent ion treatment may be a cost‐effective mitigation step to help small farmers reduce risk of foodborne E. coli infections associated with contamination of leafy greens.     

Detection of Mycobacterium avium ssp. paratuberculosis in cheese, milk powder and milk using IS900 and f57-based qPCR assays

Aims: To develop a quantitative PCR assay for sensitive and specific detection of Mycobacterium avium ssp. paratuberculosis (Map) in a range of dairy products. Methods and Results: TaqMan^® assays were designed to target the IS900 and f57 genetic elements of Map. Both real‐time PCR assays were integrated with the Adiapure^® Map DNA extraction kit and assessed separately for the detection/quantification of Map in spiked milk, Cheddar cheese and milk powder. Assays were validated against Cheddar cheese samples containing known concentrations of Map. The IS900 qPCR assay was significantly more sensitive than the assay based on the f57 primer/probe. At a threshold cycle value of 38, limits of detection (LOD) for the IS900 qPCR assay were 0·6 CFU ml^?1, 2·8 CFU g^?1 and 30 CFU g^?1 for artificially contaminated pasteurized milk, whole milk powder and Cheddar cheese, respectively. The respective LOD’s for the f57 assay were 6·2 CFU ml^?1, 26·7 CFU g^?1 and 316 CFU g^?1. Conclusion: The integrated Adiapure^® extraction – IS900 real time assay described is a sensitive, quantitative method for the detection of Map in dairy products. This is the first study to consider qPCR as a quantitative estimation of Map‐DNA in cheese and whole milk powder. Significance and Impact of the Study: The assay developed allows sensitive detection and quantification of Map DNA in a range of dairy products which is valuable for the screening and surveillance of this potential zoonotic organism.     

Quorum sensing activity in Ophiostoma ulmi: effects of fusel oils and branched chain amino acids on yeast-mycelial dimorphism

Aims: For Ophiostoma (Ceratocystis) ulmi, the ability to undergo morphological change is a crucial factor for its virulence. To gain an understanding of quorum‐sensing activity in O. ulmi as it relates to yeast‐mycelium dimorphism control, this study examines the effects of branched‐chain amino acids as well as their fusel alcohols and fusel acids as quorum sensing molecules. Methods and Results: In a defined medium containing glucose, proline and salts, O. ulmi grew as yeasts when the culture was inoculated with a high density of spores (2 × 10⁷ CFU ml^?1) and as mycelia when inoculated with a low spore density (4 × 10⁵ CFU ml^?1). The cultures displaying yeast morphology secreted a quorum‐sensing factor that shifted the morphology from mycelia to yeast. This quorum‐sensing molecule was lipophilic and extractable by organic solvents from the spent medium. Using GC/MS analysis, it was determined that the major compound in the extract was 2‐methyl‐1‐butanol. A similar effect was observed when the branched‐chain amino acids (fusel alcohol precursors) were used as the nitrogen source. E, E‐farnesol had no effect on the morphology of O. ulmi. Conclusions: Addition of the branched‐chain amino acids or one of the compounds detected in the spent medium, 2‐methyl‐1‐butanol or 4‐hydroxyphenylacetic acid, or methylvaleric acid, decreased germ tube formation by more than 50%, thus demonstrating a quorum sensing molecule behaviour in O. ulmi cultures. Significance and impact of the study: This study presents advances in the investigation of dimorphism in O. ulmi, complementing the existing scientific basis, for studying, understanding and controlling this phenomenon.     

Evaluation of the efficacy of immunomagnetic separation for the detection of Clavibacter michiganensis subsp. michiganensis in tomato seeds

Aims: To evaluate the effectiveness of the optimized immunomagnetic separation (IMS)‐plating protocol in relation to other culture, serological and molecular techniques currently used for Clavibacter michiganensis subsp. michiganensis in seed‐testing laboratories. Methods and results: Bacterial suspensions, tomato seed extracts spiked with the pathogen and naturally infected seeds were IMS‐plated for the detection of C. m. subsp. michiganensis. These results were compared with plating on general (YPGA) and semiselective (mSCM) media, double‐antibody sandwich enzyme‐linked immunosorbent assay (DAS‐ELISA), immunofluorescent assay (IF) or polymerase chain reaction (PCR). Different seed lots and pathogen strains were also tested. IMS‐plating allowed the detection of less than 10 CFU ml^?1 of pathogen in all assayed samples. The mSCM medium provided positive results for 10 CFU ml^?1 in naturally infected seeds, but up to 14 days was necessary for the typical colonies of the target to be come visible. By serological techniques, 10³ and up to 10⁴ CFU ml^?1 were detected by IF and ELISA, respectively. DNA extraction was required to obtain positive results by PCR in seed extracts containing 10³ CFU ml^?1 or more. Conclusions: Among the evaluated methods, IMS‐plating provided the best results regarding sensitivity and specificity for C. m. subsp. michiganensis detection, allowing the recovery of viable bacteria from seed extracts. Significance and impact of the study: IMS‐plating increases isolation rates of C. m. subsp. michiganensis and could improve standard protocols currently used for routine analysis.     

Variable agronomic practices, cultivar, strain source and initial contamination dose differentially affect survival of Escherichia coli on spinach

Aims: Greenhouse and field trials were conducted under different agronomic practices and inoculum doses of environmental Escherichia coli and attenuated E. coli O157:H7, to comparatively determine whether these factors influence their survival on leaves and within the rhizosphere. Methods and Results: Hydroponic conditions: E. coli spray‐inoculated at log 4 CFU ml^?1 was recovered from leaf surfaces at a mean population of 1·6 log CFU g^?1 at 15 days. E. coli O157:H7 sprayed at log 2 or 4 CFU ml^?1 levelled off on spinach leaf surfaces at a mean average population of 1·4 log CFU g^?1 after 14 days, regardless of initial dose. Quantitative recovery was inconsistent across leaf developmental age. Field conditions: Average populations of E. coli O157:H7 spray‐inoculated at log 1·45 or 3·4 CFU m^?2 levelled off at log 1·2 CFU g^?1 over a 14‐day period. Pathogen recovery from leaves was inconsistent when compared to regularly positive detection on basal shoot tissue. Pathogen recovery from soil was inconsistent among sampling locations. Moisture content varied up to 40% DW and was associated with 50% (P < 0·05) decrease in positive locations for E. coli O157:H7 but not for E. coli. Conclusions: Overall, similar populations of environmental E. coli and E. coli O157:H7 were recovered from plants despite differences in inoculum dose and agronomic conditions. Strain source had a significant impact on the quantitative level and duration of survival on leaves and in soil. Water availability appeared to be the determinant factor in survival of E. coli and E. coli O157:H7; however, E. coli showed greater environmental fitness. Significance and Impact of the Study: Persistence of surrogate, indicator E. coli and E. coli O157:H7, irrespective of variable growing conditions in spinach is predominantly limited by water availability, strain source and localization within the plant. These findings are anticipated to ultimately be adopted into routine and investigative pathogen testing protocols and mechanical harvest practices of spinach.     

Induction of production and secretion β(1→4) glucanase with Saccharomyces cerevesiae by replacing the MET10 gene with egl1 gene from Trichoderma reesei

Aims:  To construct novel brewer's yeast strains with the ability to degrade β-glucan and increase sulfite levels in beer brewing by genetic manipulation.
Methods and Results:  The recombinant plasmid pA15ME containing P_met10-egl1-T_met10 expression cassette was constructed. Bam HI-linearized target plasmid pA15ME was transformed into the industrial brewer's yeast strain Z0103 to replace the MET10 locus through one-step gene replacement. The recombinants Z8, Z7 and Z3 with the ability to secrete active endo-β-1,4-glucanase I into the culture medium were isolated by Congo red dyeing. The enzymatic activities of EG I of Z8, Z7 and Z3 were 3·3, 1·5, 1·3 U l⁻¹, and the hydrolysing degrees of β-glucans in wort were increased 11·9%, 8·6% and 6·9%, respectively, than that of original strain Z0103. The MET10 gene deletions were confirmed by real-time PCR, and the sulfite levels of the culture mediums inoculated with Z8, Z7 and Z3 were increased 26%, 16% and 17%, respectively, compared to that of Z0103.
Conclusions:  The novel endoglucanase-producing brewer's yeast strains with inserted endoglucanase gene and deficient MET10 gene led to reduced content of barley β-glucans, enhanced filterability and increased sulfur dioxide in fermenting wort. Thus, the cost for addition of microbial β-glucanase enzyme and sulfite preparations in normal beer brewing processes could be reduced.
Significance and Impact of the Study:  These results suggested that genetic engineering approach is a powerful tool to construct the novel recombinant brewer's yeast strains with different properties to reduce the cost of beer brewing and improve the flavour of a beer, and the strains obtained have potential application value in beer brewing.     

Prevention of the accumulation of Alicyclobacillus in apple concentrate by restricting the continuous process running time

Aims: To study the accumulation of vegetative cells and endospores of Alicyclobacillus, as well as viable aerobic counts during the continuous production of apple juice concentrate. Methods and Results: Apples were processed for a continuous process running time of 108 h (processing rate 1·8–2·0 t h^?1) without clean‐in‐place (CIP) procedures in‐between different batches. Samples from single‐strength apple juice, concentrate after evaporation (±30°Brix), the final product (concentrate pasteurized at 102–104°C for 90 s) and condensate water (by‐product of the juice concentration process) were collected every 12 h. From 12 to 84 h of processing, vegetative Alicyclobacillus counts in single‐strength apple juice increased significantly (P < 0·05) from 1 to 3·15 log₁₀ CFU ml^?1. Accumulation patterns of vegetative cells in apple concentrate and the final product were similar from 24 to 84 h of processing, with the respective counts increasing from 0·13 to 1·63 and 0·01 to 1·69 log₁₀ CFU ml^?1. The highest Alicyclobacillus endospore counts in single‐strength juice, concentrate and the final product was at 84 h of processing with 1·32, 1·59 and 1·64 log₁₀ CFU ml^?1, respectively. Conclusions: Alicyclobacillus vegetative cells and endospores accumulate in fruit concentrates during a continuous process running time of 108 h. Significance and Impact of the Study: In conjunction with good manufacturing practices, fruit concentrate manufactures can minimize Alicyclobacillus accumulation in fruit concentrates by limiting the continuous process running time between clean‐ups to under 84 h.     

Antimicrobial efficacy of lactoferrin, its amidated and pepsin-digested derivatives, and their combinations, on Escherichia coli O157:H7 and Serratia liquefaciens

Aims: To evaluate the in vitro bactericidal efficacy of lactoferrin (LF), its amidated (AMILF) and pepsin‐digested (PDLF) derivatives, and their combinations, on Escherichia coli O157:H7 and Serratia liquefaciens. Methods and Results: PDLF exhibited the most potent bactericidal efficacy on E. coli O157:H7 (>2·5 log₁₀ CFU ml^?1 reduction at concentrations ≥1 mg ml^?1), and AMILF on Ser. liquefaciens (1 log₁₀ CFU ml^?1 reduction at 0·25–0·50 mg ml^?1). Some combinations of LF with PDLF or AMILF showed a slight synergy on E. coli O157:H7 and Ser. liquefaciens. However, all combinations of AMILF with PDLF were less active than the sum of the individual effects of the two antimicrobials. Production of capsular polysaccharide by bacteria might be involved in antimicrobial resistance. Conclusions: Escherichia coli O157:H7 and Ser. liquefaciens showed marked differences in the sensitivity to LF and its derivatives. E. coli O157:H7 was strongly inhibited by PDLF, whereas the effect of LF and its derivatives on Ser. liquefaciens was weak to negligible. Significance and Impact of the Study: PDLF was the most promising of the tested antimicrobials on E. coli O157:H7. However, the resistance of Ser. liquefaciens to LF and its derivatives hinders their use in the food industry.     

Chemiluminescence assay for Listeria monocytogenes based on Cu/Co/Ni ternary nanocatalyst coupled with penicillin as generic capturing agent

Bacterial pathogen control is important in seafood production. In this study, a Cu/Co/Ni ternary nanoalloy (Cu/Co/Ni TNA) was synthesized using the oleylamine reducing method. It was found that Cu/Co/Ni TNA greatly enhanced the chemiluminescence (CL) signal of the hydroxylamine‐O‐sulfonic acid (HOSA)–luminol system. The CL properties of Cu/Co/Ni TNA were investigated systemically. The possible CL mechanism also was intensively investigated. Based on the enhanced CL phenomenon of Cu/Co/Ni TNA, a Cu/Co/Ni TNA, penicillin, and anti‐L. monocytogenes (Listeria monocytogenes) antibody‐based sandwich complex assay for detection of L. monocytogenes was established. In this sandwich CL assay, penicillin was employed to capture and enrich pathogenic bacteria with penicillin‐binding proteins (PBPs) while anti‐L. monocytogenes antibody was adopted as the specific recognition molecule to recognize L. monocytogenes. L. monocytogenes was detected sensitively based on this new Cu/Co/Ni TNA–HOSA–luminol CL system. The CL intensity was proportional to the L. monocytogenes concentration ranging from 2.0 × 10² CFU ml^?1 to 3.0 × 10⁷ CFU ml^?1 and the limit of detection wa 70 CFU ml^?1. The reliability and potential applications of our method was verified by comparison with official methods and recovery tests in environment and food samples.     

The role of nisin in fuel ethanol production with Saccharomyces cerevisiae

Aims: To investigate the effects of nisin on lactobacilli contamination of yeast during ethanol fermentation and to determine the appropriate concentration required to control the growth of selected lactobacilli in a YP/glucose media fermentation model. Methods and Results: The lowest concentration of nisin tested (5 IU ml^?1) effectively controlled the contamination of YP/glucose media with 10⁶ CFU ml^?1 lactobacilli. Lactic acid yield decreased from 5·0 to 2·0 g l^?1 and potential ethanol yield losses owing to the growth and metabolism of Lactobacillus plantarum and Lactobacillus brevis were reduced by 11 and 7·8%, respectively. Approximately, equal concentrations of lactic acid were produced by Lact. plantarum and Lact. brevis in the presence of 5 and 2 IU ml^?1 nisin, respectively, thus demonstrating the relatively higher nisin sensitivity of Lact. brevis for the strains in this study. No differences were observed in the final ethanol concentrations produced by yeast in the absence of bacteria at any of the nisin concentrations tested. Conclusions: Metabolism of contaminating bacteria was reduced in the presence of 5 IU ml^?1 nisin, resulting in reduced lactic acid production and increased ethanol production by the yeast. Significance and Impact of the Study: Bacteriocins represent an alternative to the use of antibiotics for the control of bacterial contamination in fuel ethanol plants and may be important in preventing the emergence of antibiotic‐resistant contaminating strains.     

Microbiological quality of raw milk produced in Estonia

Aims: The microbial quality of farm bulk‐tank raw milk produced in Estonia during years 2004–2007 was investigated. Methods and Results: Bulk‐tank milk samples were analysed for lactic acid bacteria count (LABC), psychrotrophic bacteria count (PBC), aerobic spore‐forming bacteria count (ASFBC), total bacterial counts using BactoScan and somatic cell count (SCC) using Fossomatic. Randomly selected psychrotrophic isolates were subjected to 16S–23S PCR‐ribotyping. LABC remained below 10⁴ CFU ml^?1 in most samples, while psychrotrophic micro‐organisms dominated in 60% of farms. PBC ranged from 4·2 × 10² to 6·4 × 10⁴ CFU ml^?1, and ASFBC varied from 5 to 836 CFU ml^?1. Conclusions: In general, the microbiological quality of the farm bulk‐tank milk was good – more than 91% of samples contained <50 000 CFU ml^?1, and SCC in the majority of samples did not exceed the internationally recommended limits. Genus Pseudomonas spp. was the dominating spoilage flora with Pseudomonas fluorescens as the prevailing species. Significance and Impact of the Study: Specific bacterial groups (LABC, PBC and ASFBC), not analysed routinely by dairies, were determined in bulk‐tank raw milk of numerous dairy farms during 4‐year period. Based on the survey, dairy plants can better control their supply chains and select farms (milk) for the production of specific products, i.e. milk with low PBC and high LABC for cheesemaking.     

Detection and quantification of Campylobacter jejuni and Campylobacter coli using real-time multiplex PCR

Aims: We describe a real‐time quantitative multiplex polymerase chain reaction (qmPCR) assay to identify and discriminate between isolates of Campylobacter jejuni and Campylobacter coli. Methods and Results: Two novel sets of primers and hydrolysis probes were designed to amplify the unique DNA sequences within the hipO, ccoN and cadF genes that are specific to Camp. jejuni and Camp. coli. Using the designed optimized qmPCR assay conditions, the amplification efficiency is in range from 108 to 116%. These qmPCR assays are highly specific for Camp. jejuni and Camp. coli, as seen through testing of 40 Campylobacter strains and 17 non‐Campylobacter strains. In chicken juice and tap water models spiked with known quantities of Camp. jejuni, qmPCR detected 10²–10³ CFU ml^?1 within 4 h. Conclusions: The qmPCR assays developed in this study provide reliable and simultaneous detection and quantification of Camp. jejuni and Camp. coli, with good amplification reaction parameters. Significance and Impact of the Study: Following further validation, the qmPCR assay reported here has the potential to be applied to various sample types as an alternative and rapid methodology.     

Detection of viable Escherichia coli O157:H7 by ethidium monoazide real-time PCR

Aims: The aim of this study was to develop and optimize a novel method that combines ethidium bromide monoazide (EMA) staining with real‐time PCR for the detection of viable Escherichia  coli O157:H7 in ground beef. EMA can penetrate dead cells and bind to intracellular DNA, preventing its amplification via PCR. Methods and Results: Samples were stained with EMA for 5 min, iced for 1 min and exposed to bright visible light for 10 min prior to DNA extraction, to allow EMA binding of the DNA from dead cells. DNA was then extracted and amplified by TaqMan^® real‐time PCR to detect only viable E. coli O157:H7 cells. The primers and TaqMan^® probe used in this study target the uidA gene in E. coli O157:H7. An internal amplification control (IAC), consisting of 0·25 pg of plasmid pUC19, was added in each reaction to prevent the occurrence of false‐negative results. Results showed a reproducible application of this technique to detect viable cells in both broth culture and ground beef. EMA, at a final concentration of 10 μg ml^?1, was demonstrated to effectively bind DNA from 10⁸ CFU ml^?1 dead cells, and the optimized method could detect as low as 10⁴ CFU g^?1 of viable E. coli O157:H7 cells in ground beef without interference from 10⁸ CFU g^?1 of dead cells. Conclusions: EMA real‐time PCR with IAC can effectively separate dead cells from viable E. coli O157:H7 and prevent amplification of DNA in the dead cells. Significance and Impact of the Study: The EMA real‐time PCR has the potential to be a highly sensitive quantitative detection technique to assess the contamination of viable E. coli O157:H7 in ground beef and other meat or food products.     

Potential application of the nisin Z preparation of Lactococcus lactis W8 in preservation of milk

Aims: The aim of the study is to evaluate the effectiveness of the preparation of nisin Z from Lactococcus lactis W8‐fermented milk in controlling the growth of spoilage bacteria in pasteurized milk. Methods and Results: Spoilage bacteria isolated from pasteurized milk at 8 and 15°C were identified as Enterococcus italicus, Enterococcus mundtii, Enterococcus faecalis, Bacillus thuringiensis, Bacillus cereus, Lactobacillus paracasei, Acinetobacter sp., Pseudomonas fluorescens and Enterobacter aerogenes. These bacteria were found to have the ability to survive pasteurization temperature. Except Enterobacter aerogenes, the spoilage bacteria were sensitive to the nisin Z preparation of the L. lactis W8. Addition of the nisin Z preparation to either the skim milk or fat milk inoculated with each of the spoilage bacteria reduced the initial counts (about 5 log CFU ml^?1) to an undetectable level within 8–20 h. The nisin Z preparation extended the shelf life of milk to 2 months under refrigeration. Conclusions: The nisin Z preparation from L. lactis W8‐fermented milk was found to be effective as a backup preservative to counteract postpasteurization contamination in milk. Significance and Impact of the Study: A rapid inhibition of spoilage bacteria in pasteurized skim and fat milk with the nisin Z preparation of L. lactis W8 is more significant in comparison with the commercially available nisin (nisin A). The nisin Z preparation can be used instead of commercial nisin, which is not effective in fat milk.