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Effect of 2.45 mT sinusoidal 50 Hz magnetic field on Saccharomyces cerevisiae strains deficient in DNA strand breaks repair
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Cancer Science & Therapy

ISSN: 1948-5956

Open Access

Effect of 2.45 mT sinusoidal 50 Hz magnetic field on Saccharomyces cerevisiae strains deficient in DNA strand breaks repair


14th World Cancer & Anti-Cancer Therapy Convention

November 21-23, 2016 Dubai, UAE

Miguel J Ruiz-go Mez, Francisco Sendra-Portero and Manuel Marti Nez-Morillo

University of Malaga, Spain

Posters & Accepted Abstracts: J Cancer Sci Ther

Abstract :

Purpose: To investigate whether extremely-low frequency magnetic field (MF) exposure produce alterations in the growth, cell cycle, survival and DNA damage of wild type (wt) and mutant yeast strains. Materials & Methods: Wild type and high affinity DNA binding factor 1 (hdf1), radiation sensitive 52 (rad52), rad52 hdf1 mutant Saccharomyces cerevisiae strains were exposed to 2.45 mT, sinusoidal 50 Hz MF for 96 h. MF was generated by a pair of Helmholtz coils. During this time, the growth was monitored by measuring the optical density at 600 nm and cell cycle evolution were analyzed by microscopic morphological analysis. Then, yeast survival was assayed by the drop test and DNA was extracted and electrophoresed. Results: A significant increase in the growth was observed for rad52 strain (P├?┬╝0.005, analysis of variance [ANOVA]) and close to significance for rad52 hdf1 strain (P├?┬╝0.069, ANOVA). In addition, the surviving fraction values obtained for MF exposed samples were in all cases less than for the controls, being the P value obtained for the whole set of MF-treated strains close to significance (P├?┬╝0.066, student├ó┬?┬?s t-test). In contrast, the cell cycle evolution and the DNA pattern obtained for wt and the mutant strains were not altered after exposure to MF. Conclusions: The data presented in the current report show that the applied MF (2.45 mT, sinusoidal 50 Hz, 96 h) induces alterations in the growth and survival of S. cerevisiae strains deficient in DNA strand breaks repair. In contrast, the MF treatment does not induce alterations in the cell cycle and does not cause DNA damage.

Biography :

Email: mjrg@uma.es

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