Abstract
The effects of urea treatment on the potential reactivation of heat-damaged antigenic components of staphylococcal enterotoxin A (SEA) were examined with cooked foods, including mushrooms, ham, bologna, salami, and turkey. The thermal stability of purified SEA spiked into foods and native SEA produced by Staphylococcus aureus in foods was also examined. Food samples containing either spiked or native SEA were thermally processed by autoclaving or retorting. This was followed sequentially by toxin extraction, urea treatment, dialysis, reconstitution, and SE assays with the reversed passive latex agglutination and/or enzyme immunoassay kit. The results indicate that (i) urea treatment did not result in any reactivation of heat-inactivated antigenic components of SEA in any of the foods tested, (ii) the serological components of purified SEA were destroyed (> or = 96%) by autoclaving at 121.1 degrees C for 5 to 15 min or by retorting at an F0 of 4 to 18, and (iii) the immunological property of the native SEA was approximately threefold-more heat resistant than that of the purified SEA. The study suggested that the current urea method is not suitable for the detection of heat-denatured SEA in the thermally processed foods.
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