Variation in heat resistance and biofilm formation of Bacillus cereus spores in various fermented soybean foods

This study investigated the heat resistance of Bacillus cereus spores (as well as spores in intact biofilm) in two types of Korean fermented soybean foods and presumed the potential key parameters (physicochemical and nutritional properties) associated with their heat resistance. For example, the D 100 degrees C-values of B. cereus ATCC 10987 and CH3 spores with strong heat resistance and prolific biofilm-forming capability were compared in various Jjigae-type ( Cheonggukjang jjigae, Doenjang jjigae, and Gochujang jjigae) and Jang-type ( Cheonggukjang , Doenjang, and Gochujang) foods commonly consumed in Korea. The D 100 degrees C-values of planktonic spores were significantly different depending on the type of food, that is, Jang and Jjigae. Compared with Jjigae-type foods, a higher heat resistance of B. cereus spores was found in Jang-type foods (particularly Doenjang and Gochujang) with low water activity and high salinity. In Jjigae-type foods, spore heat resistance showed a positive correlation with the pH of Jjigaes, indicating that an acidic environment weakens the spores. A negative correlation between the total fat content and spore heat resistance was found in Jjigae-type foods but not in Jang-type foods. Meanwhile, regarding the heat resistance of B. cereus spores in intact biofilm, the D 100 degrees C-values were significantly higher (up to 6.5-fold) than those of planktonic spores in all Jjigae-type foods. The slightly acidic pH and amount of carbohydrates are likely related to the large formation of extracellular polymeric substances and strong heat resistance of B. cereus spores in biofilm. This study may provide a comprehensive understanding of the relationship between the key parameters of foods and heat resistance of B. cereus spores with or without intact biofilm and methods to control their risks in different types of fermented soybean foods.