Author: Soghomonyan D1, Trchounian K1,2, Trchounian A3,4
Affiliation: <sup>1</sup>Research Institute of Biology, Yerevan State University, 0025, Yerevan, Armenia.
<sup>2</sup>Department of Microbiology, Plants and Microbes Biotechnology, Yerevan State University, 1 A. Manoogian Str, 0025, Yerevan, Armenia.
<sup>3</sup>Research Institute of Biology, Yerevan State University, 0025, Yerevan, Armenia. Trchounian@ysu.am.
<sup>4</sup>Department of Microbiology, Plants and Microbes Biotechnology, Yerevan State University, 1 A. Manoogian Str, 0025, Yerevan, Armenia. Trchounian@ysu.am.
Conference/Journal: Appl Microbiol Biotechnol.
Date published: 2016 Apr 18
Other:
Word Count: 234
Millimeter waves (MMW) or electromagnetic fields of extremely high frequencies at low intensity is a new environmental factor, the level of which is increased as technology advance. It is of interest that bacteria and other cells might communicate with each other by electromagnetic field of sub-extremely high frequency range. These MMW affected Escherichia coli and many other bacteria, mainly depressing their growth and changing properties and activity. These effects were non-thermal and depended on different factors. The significant cellular targets for MMW effects could be water, cell plasma membrane, and genome. The model for the MMW interaction with bacteria is suggested; a role of the membrane-associated proton FOF1-ATPase, key enzyme of bioenergetic relevance, is proposed. The consequences of MMW interaction with bacteria are the changes in their sensitivity to different biologically active chemicals, including antibiotics. Novel data on MMW effects on bacteria and their sensitivity to different antibiotics are presented and discussed; the combined action of MMW and antibiotics resulted with more strong effects. These effects are of significance for understanding changed metabolic pathways and distinguish role of bacteria in environment; they might be leading to antibiotic resistance in bacteria. The effects might have applications in the development of technique, therapeutic practices, and food protection technology.
KEYWORDS: Antibiotics; Applied microbiology; Bacteria; Environment and technology; Millimeter waves or extremely high frequency electromagnetic field; Proton F0F1-ATPase
PMID: 27087527 [PubMed - as supplied by publisher]