Aims: This article shows the effect of nanosecond pulsed electric field (nsPEF) on Escherichia coli, which could imply a durable change in protein expressions and then impacted the phenotype of surviving bacteria that might lead to increase pathogenicity.
Methods and results: The effects of nsPEF on E. coli viability and membrane permeabilization were investigated. One log10 reduction in bacterial counts was achieved at field strength of 10(7) V m(-1) with a train of 500 successive pulses of 60 × 10(-9) s. Incubation of germs after treatment with propidium iodide showed that membrane permeabilization was reversible. Possible protein changes of surviving bacteria were checked to assess potential phenotypical changes using two-dimensional electrophoresis. In our study, after 40 generations, only UniProt #P39187 was up-regulated with P ≤ 0·05 compared with the control and corresponded to the uncharacterized protein YtfJ. Antibiograms were used to check whether or not the pattern of cultivable bacteria after nsPEF deliveries changed.
Conclusions: The results tend to show that nsPEFs are able to inactivate bacteria and have probably no serious impact in E. coli protein patterns.
Significance and impact of the study: The use of nsPEF is a safe promising new nonthermal method for bacterial inactivation in the food processing and environmental industry.
Keywords: Escherichia coli; electropermeabilization; inactivation; waste water treatment; water.
© 2014 The Society for Applied Microbiology.