Impact of electromagnetic UHF radiation on genome destabilization in bone marrow cell of rat strains with contrast nervous system excitability

N. A. Dyuzhikova, A. I. Vaido, E. V. Daev, A. V. Kopyltsov, S. V. Surma, B. F. Shchegolev, I. N. Serov

Research outputpeer-review

Abstract

Chromosomal machinery of highly excited animals with low threshold of the nervous system excitability (LT strain) is more susceptible to the damaging effect of high frequency EMR compared against the animals with high threshold of the nervous system excitability (HT strain). High nervous system excitability determines greater decrease in chromosome aberrations level in the presence of additional reflecting elements - Aires Defender Pro resonators under UHF-waves of standard Wi-Fi router. It is shown that the genotype of animals and the functional state of their nervous system affect susceptibility to the UHF EMR and the action of resonators.

Original languageEnglish
Pages (from-to)83-92
Number of pages10
JournalEcological Genetics
Volume17
Issue number2
DOIs
Publication statusPublished - 1 Jan 2019

Scopus subject areas

  • Ecology, Evolution, Behavior and Systematics
  • Biochemistry
  • Ecology
  • Genetics
  • Genetics(clinical)

Cite this

Dyuzhikova, N. A. ; Vaido, A. I. ; Daev, E. V. ; Kopyltsov, A. V. ; Surma, S. V. ; Shchegolev, B. F. ; Serov, I. N. / Impact of electromagnetic UHF radiation on genome destabilization in bone marrow cell of rat strains with contrast nervous system excitability. In: Ecological Genetics. 2019 ; Vol. 17, No. 2. pp. 83-92.
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abstract = "Chromosomal machinery of highly excited animals with low threshold of the nervous system excitability (LT strain) is more susceptible to the damaging effect of high frequency EMR compared against the animals with high threshold of the nervous system excitability (HT strain). High nervous system excitability determines greater decrease in chromosome aberrations level in the presence of additional reflecting elements - Aires Defender Pro resonators under UHF-waves of standard Wi-Fi router. It is shown that the genotype of animals and the functional state of their nervous system affect susceptibility to the UHF EMR and the action of resonators.",
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Impact of electromagnetic UHF radiation on genome destabilization in bone marrow cell of rat strains with contrast nervous system excitability. / Dyuzhikova, N. A.; Vaido, A. I.; Daev, E. V.; Kopyltsov, A. V.; Surma, S. V.; Shchegolev, B. F.; Serov, I. N.

In: Ecological Genetics, Vol. 17, No. 2, 01.01.2019, p. 83-92.

Research outputpeer-review

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T1 - Impact of electromagnetic UHF radiation on genome destabilization in bone marrow cell of rat strains with contrast nervous system excitability

AU - Dyuzhikova, N. A.

AU - Vaido, A. I.

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AU - Kopyltsov, A. V.

AU - Surma, S. V.

AU - Shchegolev, B. F.

AU - Serov, I. N.

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AB - Chromosomal machinery of highly excited animals with low threshold of the nervous system excitability (LT strain) is more susceptible to the damaging effect of high frequency EMR compared against the animals with high threshold of the nervous system excitability (HT strain). High nervous system excitability determines greater decrease in chromosome aberrations level in the presence of additional reflecting elements - Aires Defender Pro resonators under UHF-waves of standard Wi-Fi router. It is shown that the genotype of animals and the functional state of their nervous system affect susceptibility to the UHF EMR and the action of resonators.

KW - Bone marrow

KW - Chromosome aberrations

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