Rapid detection of germinating bacillus cereus cells using fluorescent in situ hybridization

Abstract

Methods for the specific detection of Bacillus spores are needed in many situations such as the recognition of food poisoning. This study presents an experimental design in order to find the best combination of germination conditions leading to a rapid and detectable fluorescent in situ hybridization (FISH) signal from Bacillus cereus spores present in pure cultures and milk samples. B. cereus ATCC 14579 and HER 1414 were incubated in 20 different growth media by using a combination of various germinants such as sugars, amino acids and dipicolinic acid. Also, three different germination factors were tested: incubation temperature, inoculum concentration and a heat shock treatment. Permeabilization procedure and hybridization time were optimized on the best germination condition found. B. cereus-specific FISH probes were validated under the optimized condition and in detection of spiked B. cereus spores in 1% ultra heat-treated milk samples. FISH-labeled cells were detected by using flow cytometry, and the results were confirmed by fluorescence microscopy. The optimal condition allows the detection of B. cereus spores in less than 2 h. Overall, a ninefold reduction in total time for detection was achieved when comparing with previous works. Therefore, the permeabilization and hybridization optimizations mentioned in this study are major improvements for the detection time of B. cereus spores. PRACTICAL APPLICATIONS By using the optimized conditions of germination-outgrowth, permeabilization and hybridization, the detection of 10 3 cfu-mL of Bacillus cereus spores using fluorescent in situ hybridization is possible within 2 h in milk sample. © 2009, Wiley Periodicals, Inc.