References
- United States PharmacopoeaXXVth ed. Academic Press, New York 1998; 1178–1197
- Aarholt E., Flinn E. A., Smith C. W. Effects of low‐frequency magnetic fields on bacterial growth rate. Phys. Med. Biol. 1981; 26(4)613–621
- Alferov O. A., Kuznetsova T. V. Effect of an attenuated geomagnetic field on the resistance of Escherichia coli to ultraviolet rays. Kosm. Biol. Aviakosm. Med. 1981; 15(4)57–58
- Bazylinschi D. A., Garratt‐Reed A. J., Abedi A., Frankel R. B. Cooper association with iron sulfide magnetosomes in a magnetotactic bacterium. Arch. Microbiol. 1993; 160: 35–42
- Binhi V. N. Interference of ion quantum states within a protein explains weak magnetic field's effect on biosystems. Electro‐ Magnetobiol. 1997; 16(3)203–214
- Cantoni O., Sestili P., Fiorani M., Dacha M. The effect of 50 Hz sinusoidal electric and/or magnetic fields on the rate of repair of DNA single/double strand breaks in oxidatively injured cells. Biochem. Mol. Biol. Int. 1995; 37(4)681–689
- Chahal R., Craig D. Q., Pinney R. J. Investigation of potential genotoxic effects of low frequency electromagnetic fields on Escherichia coli. J. Pharm. Pharmacol. 1993; 45(1)30–33
- Chizhov S. V., Siniak I. U.E., Shikina M. I., Ukhanova S. I., Krasnoshchekov V. V. Effect of a magnetic field on Escherichia coli. Kosm. Biol. Aviakosm. Med. 1975; 9(5)26–31
- Chow K., Tung W. L. Magnetic field exposure enhances DNA repair through the induction of Dnak/J synthesis. FEBS Lett. 2000; 478(1–2)133–136
- Dutta S. K., Verma M., Blackman C. F. Frequency‐dependent alterations in enolase activity in Escherichia coli caused by exposure to electric and magnetic fields. Bioelectromagnetics 1994; 15(5)377–383
- Fassbinder J. W.E., Stanjek H., Vali H. Occurrence of magnetic bacteria in the soil. Nature 1990; 343: 161–163
- Goodman E. M., Greenebaum B., Marron M. T. Magnetic fields after translation in Escherichia coli. Bioelectromagnetics 1994; 15(1)77–83
- Mahdi A., Gowland P. A., Mansfield P., Coupland R. E., Lloyd R. G. The effects of static 3.0 T and 0.5 T magnetic fields and the echo‐planar imaging experiment at 0.5 T on E. coli. Br. J. Radiol. 1994; 67(802)983–987
- Morariu V. V. Interactiunea cimpului geomagnetic cu sistemele vii. Biofizica‐Probleme Actuale, P. T. Frangopol. Edimpex, BucurestiRomania 1992; 67–83
- Nakasono S., Saiki H. Effect of ELF magnetic fields on protein synthesis in Escherichia coli K12. Radiat. Res. 2000; 154(2)208–216
- Ramon C., Ayaz M., Streeter D. D., Jr. Inhibition of growth rate of Escherichia coli induced by extremely low‐frequency weak magnetic fields. Bioelectromagnetics 1981; 2(3)285–289
- Stepanian R. S., Barsegian A. A., Alaverdian Z. H.R., Oganesian G. G., Markosian L. S., Airapetian S. N. The effect of magnetic fields on the growth and division of the lon mutant of Escherichia coli K–12. Radiats. Biol. Radioecol. 2000; 40(3)319–322
- Thomas A., Morris P. G. The effects of NMR exposure on living organisms. I. A microbial assay. Br. J. Radiol. 1981; 54(643)615–621
- Tsuchiya K., Okuno K., Ano T., Tanaka K., Takahashi H., Shoda M. High magnetic field enhances stationary phase‐specific transcription activity of Escherichia coli. Bioelectrochem. Bioenerg. 1999; 48(2)383–387