Thermal and nonthermal effects of discontinuous microwave exposure (2.45 gigahertz) on the cell membrane of Escherichia coli

The aim of this study was to investigate the effects on the cell membranes of Escherichia coli of 2.45-GHz microwave (MW) treatment under various conditions with an average temperature of the cell suspension maintained at 37°C in order to examine the possible thermal versus nonthermal effects of sho...

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Bibliographic Details
Published in:Applied and environmental microbiology 2014-08, Vol.80 (16), p.4832-4841
Main Authors: Rougier, Carole, Prorot, Audrey, Chazal, Philippe, Leveque, Philippe, Leprat, Patrick
Format: Article
Language:English
Subjects:
Cell Membrane - chemistry
Cell Membrane - radiation effects
Cells
E coli
Electromagnetism
Engineering Sciences
Environmental Microbiology
Escherichia coli
Escherichia coli - cytology
Escherichia coli - radiation effects
Flow cytometry
Heating
Hot Temperature
Membranes
Microwaves
Proteins
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Summary:The aim of this study was to investigate the effects on the cell membranes of Escherichia coli of 2.45-GHz microwave (MW) treatment under various conditions with an average temperature of the cell suspension maintained at 37°C in order to examine the possible thermal versus nonthermal effects of short-duration MW exposure. To this purpose, microwave irradiation of bacteria was performed under carefully defined and controlled parameters, resulting in a discontinuous MW exposure in order to maintain the average temperature of the bacterial cell suspensions at 37°C. Escherichia coli cells were exposed to 200- to 2,000-W discontinuous microwave (DW) treatments for different periods of time. For each experiment, conventional heating (CH) in a water bath at 37°C was performed as a control. The effects of DW exposure on cell membranes was investigated using flow cytometry (FCM), after propidium iodide (PI) staining of cells, in addition to the assessment of intracellular protein release in bacterial suspensions. No effect was detected when bacteria were exposed to conventional heating or 200 W, whereas cell membrane integrity was slightly altered when cell suspensions were subjected to powers ranging from 400 to 2,000 W. Thermal characterization suggested that the temperature reached by the microwave-exposed samples for the contact time studied was not high enough to explain the measured modifications of cell membrane integrity. Because the results indicated that the cell response is power dependent, the hypothesis of a specific electromagnetic threshold effect, probably related to the temperature increase, can be advanced.
ISSN:0099-2240
1098-5336
DOI:10.1128/AEM.00789-14