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DNA is a Fractal Antenna in Electromagnetic Fields

DNA is a fractal antenna in electromagnetic fields

April 2011, Vol. 87, No. 4 , Pages 409-415 (doi:10.3109/09553002.2011.538130)

Martin Blank, and Reba Goodman

Departments of Physiology

Pathology, Columbia University, New York, USA

Correspondence: Martin Blank, PhD, Columbia University, Physiology, 630 W 168 Street, New York 10032, USA. E-mail:

Purpose: To review the responses of deoxyribonucleic acid (DNA) to electromagnetic fields (EMF) in different frequency ranges, and characterise the properties of DNA as an antenna.

Materials and methods: We examined published reports of increased stress protein levels and DNA strand breaks due to EMF interactions, both of which are indicative of DNA damage. We also considered antenna properties such as electronic conduction within DNA and its compact structure in the nucleus.

Results: EMF interactions with DNA are similar over a range of non-ionising frequencies, i.e., extremely low frequency (ELF) and radio frequency (RF) ranges. There are similar effects in the ionising range, but the reactions are more complex.

Conclusions: The wide frequency range of interaction with EMF is the functional characteristic of a fractal antenna, and DNA appears to possess the two structural characteristics of fractal antennas, electronic conduction and self symmetry. These properties contribute to greater reactivity of DNA with EMF in the environment, and the DNA damage could account for increases in cancer epidemiology, as well as variations in the rate of chemical evolution in early geologic history.

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