Viability Detection of Foodborne Bacterial Pathogens in Food Environment by PMA-qPCR and by Microscopy Observation
Résumé
Foodborne pathogens are responsible for foodborne diseases and food poisoning and thus pose a great threat to food safety. These microorganisms can adhere to surface and form a biofilm composed of an extracellular matrix. This matrix protects bacterial cells from industrial environmental stress factors such as cleaning and disinfection operations. Moreover, during these environmental stresses, many bacterial species can be entered in a viable but nonculturable (VBNC) state. VBNC cells are characterized by an active metabolism and a loss of cultivability on conventional bacteriological agar. This leads to an underestimation of total viable cells in environmental samples and thus may pose a risk for public health. In this chapter, we present a method to detect viable population of foodborne pathogens in industrial environmental samples using a molecular method combining propidium monoazide (PMA) and quantitative PCR (qPCR) and a fluorescence microscopic method associated with the LIVE/DEAD BacLigh viability stain.
Mots clés
foodborne pathogen
disease
poisoning
food safety
surface
biofilm
matrix
bacteria
microbiology
industry
environment
stress factor
cleaning
disinfection
public health
detection
PCR
fluorescence microscopic method
LIVE/DEAD BacLigh viability stain
microbiologic test
Propidium monoazide
viable
sécurité alimentaire
surface
biofilm
matrice
bactéries
microbiologie
industrie
environnement
facteur de stress
nettoyage
désinfection
santé publique
détection
PCR
méthode de microscopie à fluorescence
coloration de viabilité BacLigh LIVE/DEAD
test microbiologique
monoazide de propidium
viable
agent pathogène d'origine alimentaire
maladie
empoisonnement