Agm. Scannell et al., Development of bioactive food packaging materials using immobilised bacteriocins Lacticin 3147 and Nisaplin (R), INT J F MIC, 60(2-3), 2000, pp. 241-249
Immobilisation of the bacteriocins nisin and lacticin 3147 to packaging mat
erials was investigated. Stability of both cellulose-based bioactive insert
s and anti-microbial polyethylene/polyamide pouches was examined over time.
Antimicrobial activity against the indicator strain Lactococcus lactis sub
sp. lactis HP, in addition to Listeria innocua DPC 1770 and Staphylococcus
aureus MMPR3 was observed for all bacteriocin-adsorbed materials. Activity
retention of the inserts showed an initial decrease in the first week of st
orage but remained stable for the remaining 3 months of the trial. However,
adsorption of lacticin 3147 to plastic film was unsuccessful, nisin bound
well and the resulting film maintained its activity for 3-month period, bot
h at room temperature and under refrigeration. When applied to food systems
, the anti-microbial packaging reduced the population of lactic acid bacter
ia in sliced cheese and ham stored in modified atmosphere packaging (MAP) a
t refrigeration temperatures, thus extending the shelf life. Nisin-adsorbed
bioactive inserts reduced levels of Listeria innocua by greater than or eq
ual to 2 log units in both products, and Staphylococcus aureus by similar t
o 1.5 log units in cheese, and similar to 2.8 log units in ham. Similar red
uctions were observed in cheese vacuum-packaged in nisin-adsorbed pouches.
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