The Effect of Electromagnetic Radiation at Frequencies of 51.8 and 53.0 GHz on Growth, Pigment Content, Hydrogen Photoemission, and F₀F₁-ATPase Activity in the Purple Bacterium Rhodobacter sphaeroides

Exposure of the purple bacteria Rhodobacter sphaeroides MDC6522 isolated from Jermuk mineral springs (Armenia) to extremely high-frequency electromagnetic radiation (51.8 and 53.0 GHz) for 15 min resulted in a pronounced increase in the specific growth rate and H₂ photoemission. However, a significant decrease in the specific growth rate (1.6–2.0 times) was observed when the duration of irradiation was prolonged to 1 h. The maximum effect was at a frequency of 53.0 GHz. During irradiation for 1 h, absorption maxima typical of carotenoids gradually disappeared, and the level of bacteriochlorophyll а complexes decreased. Prolonged irradiation also inhibited the H₂ production during bacterial growth for 72 h, although it was restored after 96 h of growth. The activity of N,N'-dicyclohexylcarbodiimide-sensitive proton F₀F₁- ATPase also decreased in Rh. sphaeroides. These results indicate that the membrane-bound F₀F₁-ATPase may be the main target of action of extremely-high-frequency electromagnetic radiation. The data we obtained can be used in biotechnology for control of growth and hydrogen metabolism of phototrophic bacteria.