Title :
The effect of low frequency electric and magnetic fields in gene expression in Saccharomyces cerevisiae
Author :
Weisbrot, D.R. ; Khorkova, O. ; Lin, H. ; Goodman, R.
Author_Institution :
William Paterson Coll., Wayne, NJ, USA
Abstract :
Low energy electric and magnetic fields (<300 Hz) induce changes in gene activities as measured by increases in some transcript levels. The present study confirms these observations and extends them from diptera and mammalian cells to yeast. It shows that the effects are gene specific, that the gene remains `on´ for a relatively short period of time, and that a refractory period is necessary before the gene can be restimulated. There is a correlation between response to such fields and to other cellular stress responses suggesting that the cell `sees´ the signal as a stress. Models to explain the interaction of EM fields with cells are discussed
Keywords :
biological effects of fields; cellular effects of radiation; electric field effects; magnetic field effects; physiological models; 60 Hz; cellular stress responses; changes in gene activities; correlation; electric fields; magnetic fields; refractory period; transcript levels; yeast; Educational institutions; Electric shock; Energy measurement; Frequency; Fungi; Gene expression; Magnetic field measurement; RNA; Stress; Temperature;
Conference_Titel :
Electromagnetic Compatibility, 1992. From a Unified Region to a Unified World., 1992 Regional Symposium on
Conference_Location :
Tel-Aviv
Print_ISBN :
0-7803-0725-9
DOI :
10.1109/ISEMC.1992.257574
