Previous assays with weak sinusoidal magnetic fields (SMF) have shown that bacteria that had been exposed to a 50 Hz magnetic field (0,1mT - 1mT) gave colonies with significantly lower transposition activity as compared to sham-exposed bacteria. These experiments have now been extended by using a pulsed-square wave magnetic field (PMF) and, unexpectedly, it was found that bacteria exposed to PMF showed a higher transposition activity compared to the controls. The increase of the transposition activity was positively correlated with the intensity of the magnetic fields (linear dose-effect relation). This phenomenon was not affected by any bacterial cell proliferation, since no significant difference was observed in number and size of PMF- and sham-exposed colonies. In addition, the cell viability of E. coli was significantly higher than that of the controls when exposed to SMF, and lower than that of the controls when exposed to PMF. Under our experimental conditions it was shown that exposure to PMF stimulates the transposition activity and reduces cell viability of bacteria, whereas exposure to SMF reduces the transpositon mobility and enhances cell viability. These results suggest that the biological effects of magnetic field may critically depend on the physical characteristics of the magnetic signal, in particular the wave shape.
Various effects on transposition activity and survival in Escherichia coli due to different ELF-MF signals / Del Re B.; Bersani F.; Agostini C.; Mesirca P.; G. Giorgi. - In: RADIATION AND ENVIRONMENTAL BIOPHYSICS. - ISSN 0301-634X. - STAMPA. - 43 (4):(2004), pp. 265-270. [10.1007/s00411-004-0260-9]
Various effects on transposition activity and survival in Escherichia coli due to different ELF-MF signals.
DEL RE, BRUNELLA;BERSANI, FERDINANDO;MESIRCA, PIETRO;GIORGI, GIANFRANCO
2004
Abstract
Previous assays with weak sinusoidal magnetic fields (SMF) have shown that bacteria that had been exposed to a 50 Hz magnetic field (0,1mT - 1mT) gave colonies with significantly lower transposition activity as compared to sham-exposed bacteria. These experiments have now been extended by using a pulsed-square wave magnetic field (PMF) and, unexpectedly, it was found that bacteria exposed to PMF showed a higher transposition activity compared to the controls. The increase of the transposition activity was positively correlated with the intensity of the magnetic fields (linear dose-effect relation). This phenomenon was not affected by any bacterial cell proliferation, since no significant difference was observed in number and size of PMF- and sham-exposed colonies. In addition, the cell viability of E. coli was significantly higher than that of the controls when exposed to SMF, and lower than that of the controls when exposed to PMF. Under our experimental conditions it was shown that exposure to PMF stimulates the transposition activity and reduces cell viability of bacteria, whereas exposure to SMF reduces the transpositon mobility and enhances cell viability. These results suggest that the biological effects of magnetic field may critically depend on the physical characteristics of the magnetic signal, in particular the wave shape.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.