An alternative real-time PCR method to detect the Bacillus cereus group in naturally contaminated food gelatine: a comparison study

Aims:  Comparison of an internally controlled real-time PCR assay with the standard plate-based assay (ISO 21871) for the detection of Bacillus cereus group cells in gelatine.
Methods and Results:  A comprehensive TaqMan probe was designed allowing the real-time PCR assay to be fully inclusive and exclusive. An internal amplification control was designed and implemented at 500 copies per reaction without impact on target detection. Specific and selective detection of target cells was achieved with a quick and simple DNA preparation procedure. No significant difference (κ = 0·99) was observed between the performance of the real-time PCR and the standard plate-based method on naturally contaminated gelatines ( n  = 197). Relative accuracy, relative sensitivity and relative specificity were ≥99%.
Conclusions:  The real-time PCR assay is a valid alternative of the standard plate-based assay.
Significance and Impact of the Study:  The real-time PCR assay decreased the time between sample collection and result from 2 days to 2 h, while analysis cost did not increase. The gelatine-producing industry can ensure gelatine safety and quality in a much faster way.     

The development of rapid real-time PCR detection system for Vibrio parahaemolyticus in raw oyster

Aims:  To develop a new rapid real-time polymerase chain reaction (PCR) based detection system for Vibrio parahaemolyticus ( V. parahaemolyticus ) applicable to raw oyster samples.
Methods and Results:  V. parahaemolyticus cells were artificially inoculated to oysters. Samples were homogenized in 100 ml of sterile saline water and serially diluted to 1·5 CFU ml⁻¹ level. One millilitre of diluents was centrifuged and the pellet was resuspended with 100  μ l of de-ionized water. DNA was extracted by boiling for 20 min, and 0·5  μ l was used as a template for PCR reaction. Real-time PCR was performed with TMC-1000 system (1  μ l PCR system). The detection system was found to achieve detection limit of 1·5 CFU g⁻¹ for V. parahaemolyticus . Furthermore, the specificities of these assay systems were confirmed with more than 20 bacterial strains, including various Vibrio species.
Conclusions:  Rapid and sensitive food-borne pathogen detection techniques for V. parahaemolyticus is important to the food industry and consumers. The direct detection of V. parahaemolyticus from food is possible with micro real-time PCR system.
Significance and Impact of the Study:  This study shows that oyster samples can be tested for V. parahaemolyticus with a rapid, specific and simple procedure.     

Evaluation of PCR assays for quantifying seed-borne infection by Fusarium and Microdochium seedling blight pathogens

Aims:  To evaluate competitive PCR assays for quantifying seed-borne Microdochium and Fusarium seedling blight pathogen DNA and to determine test and year repeatability and sources of variability.
Methods and Results:  Relationships between DNA and plate counts were significant for Fusarium and Microdochium seedling blight pathogens in 152 seed batches from 3 years. Coefficient of determinations, however, differed greatly ( Fusarium ; R ² = 0·25, P  =   0·029, Microdochium ; R ² = 0·73, P  <   0·001). Significant differences between years were observed in the regression slopes for Microdochium . Pathogen DNA quantified in 16 extractions after sampling was highly correlated to results following storage for 1–2 years ( R ² > 0·90). Residual maximum likelihood analysis showed that the least and greatest variance components of the testing procedure were DNA extraction subsampling and PCR assay respectively.
Conclusions:  Amount of pathogen DNA is a useful estimator of seed batch contamination for Microdochium but not Fusarium seedling blight pathogens. Although reproducible over time, improvements to the testing procedure should focus on repeated PCR amplifications to reduce assay variability.
Significance and Impact of the Study:  Replacing plate counts with competitive PCR for determining the severity of seed batch contamination is feasible in areas where Microdochium seedling blight pathogens predominate.     

Nested real-time PCR for hepatitis A detection

Aims:  The hepatitis A virus (HAV) is one of the most important human foodborne pathogens causing a number of worldwide outbreaks each year. The detection of HAV in food samples remains a complex issue, because commonly used detection tools, such as conventional or even real-time PCR assays, are often unable to detect HAV with sufficient sensitivity. The aims of this study were to develop highly sensitive and specific nested real-time PCR (NRT-PCR)-based method for HAV detection in food and to compare it with currently available methods.
Methods and Results:  By combining conventional PCR, nested PCR and real-time PCR techniques, we have developed a specific NRT-PCR assay for the detection of HAV. The procedure involves two consecutive PCRs, the first of which is performed as a conventional RT-PCR using primers specific for HAV 5' noncoding region. The second reaction involves a real-time PCR using a nested primer pair specific for the first PCR product and a TaqMan probe.
Conclusions:  We have developed a novel NRT-PCR method capable of detecting as little as 0·2 PFU of HAV, which is significantly more sensitive than any other PCR technique tested in our system.
Significance and Impact of the Study:  NRT-PCR provides a potentially useful method for detecting HAV at extremely low levels, as frequently found in food samples, and can be potentially adopted as a regulatory method to ensure food safety.     

A new rapid and sensitive detection method for cereulide-producing Bacillus cereus using a cycleave real-time PCR

Aims:  To develop a rapid and sensitive detection method for cereulide-producing Bacillus cereus using a real-time PCR based on the sequence of the cereulide synthesis gene.
Methods and Results:  A total of 56 cereulide-producing B. cereus and 15 cereulide-negative strains were tested. We designed specific primers and probes for the detection of cereulide-producing B. cereus . The new cycleave real-time PCR assay gave positive detections for all of 56 cereulide-producing B. cereus strains, whereas all other strains including 10 systemic infectious disease strains were negative. No cross-reaction was observed and the internal control showed positive for all samples.
Conclusions:  The performance of the assay was highly reproducible and specific for cereulide-producing B. cereus . The positive detection was obtained within only 2 h for cereulide-producing strains. The detection limit of this assay was evaluated as 10⁴ CFU g⁻¹ food sample. The assay also confirmed that strains from systemic infectious cases were cereulide-negative.
Significance and Impact of the Study:  This assay is applicable for contaminated foods as well as specimens from infectious disease cases. We recommend this assay for routine examination of suspected B. cereus food poisonings.     

A nested real-time PCR assay has an increased sensitivity suitable for detection of viruses in aerosol studies

Aims:  Influenza is commonly spread by infectious aerosols; however, detection of viruses in aerosols is not sensitive enough to confirm the characteristics of virus aerosols. The aim of this study was to develop an assay for respiratory viruses sufficiently sensitive to be used in epidemiological studies.
Method:  A two-step, nested real-time PCR assay was developed for MS2 bacteriophage, and for influenza A and B, parainfluenza 1 and human respiratory syncytial virus. Outer primer pairs were designed to nest each existing real-time PCR assay. The sensitivities of the nested real-time PCR assays were compared to those of existing real-time PCR assays. Both assays were applied in an aerosol study to compare their detection limits in air samples.
Conclusions:  The nested real-time PCR assays were found to be several logs more sensitive than the real-time PCR assays, with lower levels of virus detected at lower Ct values. The nested real-time PCR assay successfully detected MS2 in air samples, whereas the real-time assay did not.
Significance and Impact of the Study:  The sensitive assays for respiratory viruses will permit further research using air samples from naturally generated virus aerosols. This will inform current knowledge regarding the risks associated with the spread of viruses through aerosol transmission.     

Rapid detection of pathogenic Vibrio parahaemolyticus by a sensitive and specific duplex PCR-hybridization probes assay using LightCycler

Aims:  To develop a real-time polymerase chain reaction (PCR) hybridization probe assay for rapid and specific detection of thermostable direct haemolysin-producing Vibrio parahaemolyticus.
Methods and Results:  Primers and hybridization probes were designed to target the toxR and tdh2 genes. Mismatches were introduced in the tdh2 primers for specific amplification of the target. The 3' ends of donor probes for both genes were labelled with fluorescein. The 5' ends of recipient probes for tdh2 and toxR were labelled with LC Red 640 and LC Red 705, respectively. The real-time assay was evaluated against conventional biochemical tests and the KAP-RPLA kit (Kanagawa phenomenon detection kit by reverse passive latex agglutination). toxR and tdh2 were detected in 100% and 91% of clinical V. parahaemolyticus isolates ( n  = 118), respectively. Specificity and sensitivity of the real-time assay for toxR and tdh2 were 100%, respectively. Dynamic range of detection for toxR was 10⁷–10¹ CFU ml⁻¹ and that for tdh2 was 10⁷–10⁴ CFU ml⁻¹.
Conclusions:  The LightCycler assay described is sensitive and highly specific for detection of pathogenic V. parahaemolyticus in a single reaction tube within 80 min.
Significance and Impact of the Study:  The assay developed allows accurate detection of pathogenic V. parahaemolyticus , which is valuable for rapid tracing of infection source during outbreaks.     

Specific and sensitive detection of Ralstonia solanacearum in soil with quantitative, real-time PCR assays

Aims:  The aim of this study was to develop a sensitive and an effective method suitable for large-scale detection and quantification of Ralstonia solanacearum in soil.
Methods and Results:  Based on the specific sequence of R. solanacearum strain G1000, the primer pair R.sol1-R.sol2 and the TaqMan probe Rs-pro were designed, and specific and sensitive PCR detection methods were successfully established. The detection limit was 100 fg μl⁻¹ DNA in conventional PCR and 1·2 fg μl⁻¹ in real-time PCR. By combining real-time PCR with the modified protocols to extract DNA from soil, it was possible to achieve real-time detection of R. solanacearum in soil, and the degree of sensitivity was 100 fg μl⁻¹. To detect inhibition in soil samples, an exogenous internal positive control (IPC) was included preventing false negative results, and IPC was successfully amplified from all samples tested. The methodology developed was used to detect the presence of R. solanacearum in tobacco fields in China.
Conclusions:  The real-time PCR combined with the protocol to extract DNA from soil led to the development of a specific, sensitive and rapid detection method for R. solanacearum in soil.
Significance and Impact of the Study:  The real-time PCR improves the detection sensitivity and specificity and provides an important tool for routine detection of R. solanacearum in soil samples and for epidemiological and ecological studies.     

Development of a real-time PCR assay with an internal amplification control for the screening of Shiga toxin-producing Escherichia coli in foods

Aims:  To develop and evaluate a real-time PCR assay incorporating an internal amplification control (IAC) suitable for the screening of Shiga toxin (Stx)-producing Escherichia coli (STEC) in foods.
Methods and Results:  A competitive IAC was constructed and included in an stx -specific real-time PCR assay. Coupled to 18-h enrichment and automated DNA extraction, the assay could reliably detect the presence of STEC in minced meats inoculated at 10 CFU per 25 g. Its performance was evaluated on 415 minced beef and 112 raw milk cheese samples and compared with that of a PCR-ELISA method. Fifty-three minced meats and 31 cheeses were found stx -positive, giving 98·3% and 93·75% concordance, respectively, with the PCR-ELISA reference method.
Conclusions:  A highly sensitive stx -specific real-time PCR method including an IAC was developed, facilitating monitoring of false-negative results due to PCR inhibitors.
Significance and Impact of the Study:  Combined with automated DNA extraction, the stx -IAC real-time PCR assay represents a suitable method for rapid screening of STEC in foods.     

Rapid Aeromonas hydrophila identification by TaqMan PCR assay: comparison with a phenotypic method

Aims:  Aeromonas hydrophila is recognized as a human pathogen following wound exposure or ingestion of contaminated water and food. For rapid identification of this bacterium, a TaqMan-based real-time PCR assay has been developed.
Methods and Results:  Primers and probes that target specific sequences of the 16S rRNA gene and cytolytic enterotoxin gene ( aerA ) were combined in a duplex assay. Presence and size of PCR products were confirmed with microchannel fluidics electrophoresis analysis. After validation, using type strain CIP7614T DNA, the PCR assay was tested on 12 positive and negative controls. Twenty-one Aeromonas strains were isolated from environmental samples and were identified with biochemical tests as Aer. sobria , Aer. caviae and Aer. hydrophila . Only Aer. hydrophila strains tested positive by PCR assay.
Conclusions:  The PCR developed here was successfully applied for the identification of Aer. hydrophila from reference, clinical and environmental samples and showed a high discrimination between Aer. hydrophila and other Aeromonas species.
Significance and Impact of the Study:  This molecular method is convenient, rapid (2·5 h vs 24 h), specific to identify Aer. hydrophila and usable for diagnosis in medical and veterinary laboratories.     

Multiplex real-time PCR for exhaustive detection of diarrhoeagenic Escherichia coli

Aims:  The source and routes of diarrhoeagenic Escherichia coli (DEC) have not been clarified because it is difficult to detect these organisms in samples with numerous coliform bacteria. We have developed multiplex real-time PCR assays for exhaustive detection of DEC.
Methods and Results:  Primers and TaqMan probes were designed to amplify and quantify one gene ( eae , stx1 , stx2 , elt , est , virB , aggR , astA, and afaB ) from each of seven pathotypes of DEC, in duplex or triplex reactions under the same PCR cycling conditions. Specificity was confirmed using 860 strains including 88 DEC strains. The fluorescence threshold cycle and DNA concentrations correlated with decision coefficients of more than 0·99. Subsequently, meat samples and enrichment broths were spiked with DEC and the assays used to detect the genes. The detection limits varied from 7·1 × 10² to 1·1 × 10⁴ CFU ml⁻¹, depending on the target genes. All meat samples spiked with a variety of DEC (more than 10 CFU 10 g⁻¹) were found to be positive by the method.
Conclusions:  The present system allows for the efficient and simultaneous determination of various DEC pathotypes.
Significance and Impact of the Study:  This system makes epidemiological investigations for DEC sensitive and quick, and is a useful tool to clarify the source and routes of DEC.     

Rapid and sensitive detection of Vibrio cholerae by loop-mediated isothermal amplification targeted to the gene of outer membrane protein ompW

Aims:  The present study was aimed to develop a loop-mediated isothermal amplification (LAMP) assay for rapid and specific detection of Vibrio cholerae .
Methods and Results:  A set of five designed primers that recognized specifically the V. cholerae ompW gene was used. The optimized time and temperature conditions for the LAMP assay were 75 min at 65°C, respectively. The LAMP method accurately identified 16 isolates of V. cholerae but did not detect 28 non- cholerae Vibrio isolates and 37 non- Vibrio bacterial isolates. The sensitivity of LAMP for V. cholerae detection in pure cultures was 2·2 × 10³ CFU ml⁻¹ or equivalent to 8 CFU per reaction. In the case of spiked shrimp samples without enrichment, the detection limit for V. cholerae was 2·2 × 10⁴ CFU g⁻¹ or equivalent to 20 CFU per reaction, while that of PCR was 100 CFU per reaction.
Conclusion:  The developed LAMP assay targeting ompW gene was rapid, specific and sensitive for V. cholerae detection.
Significant and Impact of the study:  The developed LAMP assay appears to be precise, accurate and a valuable tool for detection of V. cholerae . This assay can replace laborious biochemical tests for the identification of V. cholerae in contaminated food sample.     

Development of a simple and low-cost real-time PCR method for the identification of commonly encountered mycobacteria in a high throughput laboratory

Aims:  To facilitate efficient identification of commonly encountered mycobacteria species ( Mycobacterium tuberculosis , Mycobacterium avium , Mycobacterium intracellulare , Mycobacterium fortuitum complex , Mycobacterium chelonae/abscessus , Mycobacterium kansasii , Mycobacterium gordonae ) in high throughput laboratories, a 16s rDNA sequence based real-time PCR assay was developed and evaluated.
Methods and Results:  Oligonucleotide primers and hybridization probes were designed based on sequence differences of the mycobacterial 16S rDNA gene. This assay was evaluated with 1649 suspected non-tuberculosis mycobacterial isolates. Apart from 3 out of 40  M. avium isolates that showed false signal with M. intracellulare specific probe, 100% specificity was obtained for all tested probes. Assay sensitivity varied from 88·9 to 100% depending on species. Average cost for obtaining a definite identification was only USD 1·1 with an average turn around time of less than 3 days.
Conclusions:  A rapid, simple and inexpensive real-time PCR assay was developed for the identification of common encountered mycobacteria in a high throughput laboratory setting.
Significance and Impact of the Study:  With this assay, more than 80% of the clinically isolated nontuberculous mycobacteria could be identified in a highly cost effective manner. This helped to save resources for other laboratory activities especially in high throughput mycobacterial laboratories.     

Persistence of Escherichia coli O157:H7 on the rhizosphere and phyllosphere of lettuce

Aims:  The major objective of this study was to determine the effects of low levels of Escherichia coli O157:H7 contamination on plant by monitoring the survival of the pathogen on the rhizosphere and leaf surfaces of lettuce during the growth process.
Methods and Results:  Real-time PCR and plate counts were used to quantify the survival of E. coli O157:H7 in the rhizosphere and leaf surfaces after planting. Real-time PCR assays were designed to amplify the stx 1, stx 2 and the eae genes of E. coli O157:H7. The detection limit for E. coli O157:H7 quantification by real-time PCR was 2·4 × 10³ CFU g⁻¹ of starting DNA in rhizosphere and phyllosphere samples and about 10² CFU g⁻¹ by plate count. The time for pathogens to reach detection limits on the leaf surface by plate counts was 7 days after planting in comparison with 21 days in the rhizosphere. However, real-time PCR continued to detect stx 1, stx 2 and the eae genes throughout the experimental period.
Conclusion:  Escherichia coli O157:H7 survived throughout the growth period as was determined by real-time PCR and by subsequent enrichment and immunomagnetic separation of edible part of plants.
Significance and impact of the Study:  The potential presence of human pathogens in vegetables grown in soils contaminated with E. coli O157:H7 is a serious problem to our national food supply as the pathogen may survive on the leaf surface as they come in contact with contaminated soil during germination.     

Indoor fungal contamination of moisture-damaged and allergic patient housing analysed using real-time PCR

Aims:  The aim of our study was to compare, using real-time (Rt) PCR, quantitative levels of five fungal species in three kinds of dwellings.
Methods and Results:  Three groups of homes were recruited: moisture-damaged homes (MDH, n  = 30), allergic patient homes (APH, n  = 25) and paired control homes (CH, n  = 55). Five moulds with allergenic compounds or mycotoxin production characteristics ( Cladosporium sphaerospermum , Penicillium chrysogenum , Aspergillus versicolor , Alternaria alternata and Stachybotrys chartarum ) were quantified using Rt-PCR. Cycle threshold results were expressed in spore equivalent per volume or surface unit using a direct calculation based on a spore standard curve. MDH presented significantly higher amounts of DNA from C. sphaerospermum in both air and surface samples than CH ( P  < 0·001). APH presented slightly elevated amounts of DNA from A. versicolor in both air and surface samples, compared to CH ( P  < 0·05).
Conclusion:  Rt-PCR quantification of targeted fungal species is a rapid, reliable tool that could be included in a global indoor mould evaluation.
Significance and Impact of the Study:  Quantification of C. sphaerospermum using Rt-PCR can help to better target social service intervention in MDH. Quantification of A. versicolor DNA could be informative for characterization of APH.     

Real-time quantitative loop-mediated isothermal amplification as a simple method for detecting white spot syndrome virus

Aims:  White spot syndrome virus (WSSV) continues to be the most pathogenic virus among the crustacean aquaculture causing mass mortality. In the present study, we established a one-step, single tube, real-time accelerated loop-mediated isothermal amplification (real-time LAMP) for quantitative detection of WSSV.
Materials and Methods:  A set of six specially designed primers that recognize eight distinct sequences of the target. The whole process can be completed in 1 h under isothermal conditions at 63°C. Detection and quantification can be achieved by real-time monitoring in an inexpensive turbidimeter based on threshold time required for turbidity in the LAMP reaction. A standard curve was constructed by plotting viral titre against the threshold time ( T _t) using plasmid standards with high correlation coefficient ( R ² = 0·988).
Conclusions:  Sensitivity analysis using 10-fold dilutions (equivalent to 35 ng  μ l⁻¹ to 35 ag  μ l⁻¹) of plasmid standards revealed this method is capable of detecting upto 100 copies of template DNA. Cross-reactivity analysis with DNA/cDNA of IHHNV, TSV, YHV-infected and healthy shrimp showed this method is highly specific for quantitative detection of WSSV.
Significance and Impact of the Study:  WSSV real-time LAMP assay appears to be precise, accurate and a valuable tool for the detection and quantification of WSSV in large field samples and epidemiological studies.     

Evaluation of ISO enrichment real-time PCR methods with internal amplification control for detection of Listeria monocytogenes and Salmonella enterica in fresh fruit and vegetables

Aim:  To find a quick and reliable diagnostic technique for penicillin nonsusceptible Streptococcus pneumoniae (PNSSP) from Nanjing, China.
Methods and Results:  A total of 130 S. pneumoniae clinical isolates and 50 healthy carriers' isolates were collected from seven teaching hospitals in Nanjing between March 2005 and June 2007. Three different methods, PCR, seminested-PCR, and PCR-RFLP, were applied in detecting PNSSP. The prevalence of PNSSP was 73·9%, the penicillin-resistance rate of children's group and adults' group were 87·8% and 31·2%, respectively. The PCR method had difficulty in identifying intermediate-resistant and resistant isolates, the PCR-RFLP method could only be used for susceptible isolates and had poor sensitivity. Seminested-PCR was fast, sensitive for detection, and successfully differentiated between moderately and highly resistant S. pnemoniae ; 96·1% of the PCR results were in agreement with the minimum inhibitory concentration (MIC) data.
Conclusions:  The penicillin resistance rate in isolates from children was much higher than of isolates from adults in China. Seminested-PCR for pbp1A was the best diagnostic method.
Significance and Impact of the Study:  We compared three different strategies for the first time in identification of PNSSP in China. In conclusion, seminested-PCR can be applied in clinical microbiology laboratories for detection of serious infections caused by S. pneumoniae .     

Development of a PCR assay for identification of the Bacillus cereus group species

Aims:  A PCR technique was developed as a reliable and rapid identification method for the Bacillus cereus group species, based on a unique conserved sequence of the motB gene (encoding flagellar motor protein) from B. cereus , Bacillus thuringiensis and Bacillus anthracis .
Methods and Results:  Primer locations were identified against eight strains of the B. cereus group spp. from nucleotide sequences available in the National Centre for Biotechnology Information database. The PCR assay was applied for the identification of 117 strains of the B. cereus group spp. and 19 strains from other microbial species, with special emphasis on foodborne pathogens.
Conclusion:  The designed cross-species primers are group specific and did not react with DNA from other Bacillus and non- Bacillus species either motile or not. The primers system enabled us to detect 10³ CFU of B. cereus cells per millilitre of sample.
Significance and Impact of the Study:  Bacillus cereus group spp. belongs to one of the most prevalent foodborne pathogens. Bacterial growth results in production of different toxins; therefore, consumption of food containing >10⁶ bacteria per gram may result in emetic and diarrhoeal syndromes. A rapid and sensitive bacterial detection method is significant for food safety.     

Development of Faecalibacterium 16S rRNA gene marker for identification of human faeces

Aims:  The focus of this study was to identify a bacterial 16S rRNA gene sequence, unique to microbiota in the human gut, for use in development of a dependable PCR assay to detect human faecal pollution in water.
Methods and Results:  Suppression subtractive hybridization (SSH) and bioinformatics were used to identify a genetic marker, within the 16S rRNA gene of Faecalibacterium , for the detection of human faeces. DNA sequencing analysis demonstrated that a majority (16) of 74 clones of the SSH library contained insertion sequences identified as Faecalibacterium 16S rRNA genes . Human faeces-specific sequences were derived and six PCR primer sets designed and tested against faecal DNA samples from human and nonhuman sources. One PCR primer set, HFB-F3 and HFB-R5, was exclusively associated with human faeces. These primers generated a human faeces-specific amplicon of 399 bp from 60·2% of human faecal samples and 100% of sewage samples.
Conclusions:  The subject Faecalibacterium marker is specific for sewage.
Significance and Impact of the Study:  This study represents the initial report of a Faecalibacterium marker for human faeces, which may prove useful for microbial source tracking.     

Characterization of lactosporin, a novel antimicrobial protein produced by Bacillus coagulans ATCC 7050

Aims:  To characterize the antimicrobial protein produced by Bacillus coagulans used in the probiotic dietary supplement (Lactospore^® Probiotic, Sabinsa Corp., Piscataway, NJ, USA).
Methods and Results:  Bacillus coagulans ATCC 7050 was grown at 37°C for 18 h. The cell free supernatant was concentrated 10-fold (lactosporin preparation, LP). The antimicrobial activity of LP was confirmed against Micrococcus luteus ATCC 10420 in a well diffusion assay. The proteinaceous nature of LP was determined following exposure to different enzymes. The activity of LP was pH-dependent but stable to heat. The isoelectric point of LP was determined to be 3·5–4·0. PCR analyses showed no similarity between lactosporin and known antimicrobial proteins produced by the Bacillus spp.
Conclusions:  Lactosporin is a novel antimicrobial protein. Initial characterization indicates that it may fall outside of the conventional classification of class I and II bacteriocins. Loss of activity after exposure to a number of proteolytic enzymes and lipase suggest that lactosporin may posses a lipid moiety which contributes to its inhibitory activity.
Significance and Impact of the Study:  The unique characteristics of lactosporin, including its antimicrobial activity against pathogenic micro-organisms, indicate that it may have potential for application in foods and personal care products.