E.A. Pronina, G.M. Shub, A.P. Krenitskij, A.V. Majborodin, O.V. Betskij, Ju.V. Gulyaev
im. Experimental studying of the influence of electro-magnetic radiation on the frequency of atmospheric oxygen absorption and radiation molecular spectrum (129 GHz) on the antioxidase protection enzymes: catalase, superoxide dismutase, peroxidase.
Materials and methods. The panoramic spectrometric measuring complex, developed in Central Scientific Research Institute of measuring equipment Public corporation, Saratov, was used while carrying out the research. Electromagnetic vibrations of extremely high frequencies were stimulated in this complex imitating the structure of atmospheric oxygen absorption and radiation molecular spectrum.
Reference and clinical strains Escherichia coli АТСС 25922, Staphylococcus Aureus АТСС 6538-Р, Pseudomonas aeruginosa АТСС 27853 were used as the object of the research.
The activity of the reference strains was defined by standard methods: the activity of catalase – by the colorimetric method of Korolyuk, the activity а SOD – by the method of Chevari et al. and the activity of peroxidase – by the method of Boyarkin.
Results. The influence of electro-magnetic radiation on a frequency of atmospheric oxygen absorption and radiation molecular spectrum on bacteria led to the increase of the antioxidase protection enzymes activity. SOD maximum activity level was observed during 30-45 minutes exposure and catalase maximum activity level during 45 minutes respectively.
Conclusion. The growth of the activity of the bacteria antioxidase protection enzymes under the influence of electro-magnetic radiation on a frequency of atmospheric oxygen absorption and radiation molecular spectrum can be explained by the growth of oxygen synthesis in the system.