Validation of the Effect of Listex P100 Bacteriophage on Survival of Listeria Monocytogenes

Abstract

ObjectivesThe objective of this study was to validate LISTEX P100 (P100) phage lethality on Listeria monocytogenes (LM) when sprayed on the surface of 3 RTE sliced deli meat products.Materials and MethodsSliced cured ham, un-cured turkey and cured corned beef were subjected to 5 treatments of P100 using Sono-tek ultrasonic spray equipment with nozzle directed on the face of the RTE sliced product. 10cm2 of one slice was inoculated with a 5 strain cocktail of LM at 0.005ml (5ul/cm2) for a total of 0.02 mL (20ul) of the cell suspension to target 1 × 105 CFU/slice. Calibrated spray of P100 was applied on inoculated slices using Sono-tek ultrasonic spray equipment. The inoculated slice were aseptically placed on top of a non-inoculated slice sprayed with the same dosage of P100, both slices were transferred into bags, vacuum packaged and stored at 4°C. 3 samples per treatment per meat product were analyzed for surviving LM at 0, 6, and 24 h. after spraying P100. Bags were cut open, 40 mL buffered peptone water was added and stomached for 60 sec. and 0.1 and 0.01 mL of liquid was surface plated on MOX and incubated at 35°C for 48 h. Bacterial colonies were expresssed as Log10CFU/sample (10 cm2).ResultsHam. There was significant (P 0.05) different from TRT5. 24 h. post application of P100, all treatments were significantly (P 0.05) different from TRT5. 24 h. post application of P100, TRT4 was significantly (P 0.05) different from TRT3 or TRT5.Corned beef. There was significant (P 0.05) different from each other. 24 h. post application of P100, all treatments were significantly (P 0.05) different from each other.All products had greater than 1 log kill of LM after 6 and 24 h of treatment with P100.ConclusionPhages, the natural enemy of bacteria have co-evolved with their bacterial hosts. They are ubiquitous, 100 times smaller and outnumber bacteria by 10 fold. P100 is a T-4 or lytic phage which has broad Listeria host range. P100 phage attaches to Listeria by binding to the outer lipopolysaccharide molecule on the cell surface and injecting its DNA into the host. This study shows that all levels of P100 had greater than 1 log LM kill 6 and 24 h. after spray treatment. Higher levels of P100 (1.0, 2.0, and 5.0%) showed marginal increase in LM kill compared to 0.5% P100 treatment. 1ul/cm2 spray of 5% P100 provided similar LM kill compared to 5ul/cm2 spray of 1% P100.TreatmentsTargeted P100/ml, PFUVolume of spray/cm2No of P100/cm2, PFUTRT1: Control (water spray)05ul/cm20TRT2: 0.5% P1001 × 1095ul/cm25 × 106TRT3: 1% P1002 × 1095ul/cm21 × 107TRT4: 2% P1004 × 1095ul/cm22 × 107TRT5: 5% P1001 × 10101ul/cm21 × 107