A mathematical model for DNA

TL;DR

This paper proposes a mathematical model of DNA as an electromagnetic communication system, suggesting new methods to detect and counteract DNA damage and cancer by manipulating electromagnetic signals.

Contribution

It introduces a novel mathematical model based on string and M-theory to describe DNA's electromagnetic behavior and proposes a method to prevent DNA destruction using crafted electromagnetic signals.

Findings

Damaged DNA produces different electromagnetic signals than normal DNA.

Electromagnetic signals can induce currents that lead to DNA destruction.

Opposite electromagnetic signals can potentially prevent DNA damage and cancer progression.

Abstract

Recently, some authors have shown that a DNA molecule produces electromagnetic signals and communicates with other DNA molecules or other molecules. In fact, a DNA acts like a receiver or transmitter of radio waves. In this paper, we suggest a mathematical model for the DNA molecule and use of its communication to cure some diseases like cancer. In this model, first, by using concepts from string theory and M-theory, we calculate the energy of a DNA in terms of interactions between free electrons and bound electrons. We show that when a DNA is damaged, its energy changes and an extra current is produced. This extra current causes the electromagnetic signals of a damaged DNA molecule to be different when compared to the electromagnetic signals of a normal DNA molecule. The electromagnetic signals of a damaged DNA molecule induces an extra current in a normal DNA molecule and leads to its destruction. By sending crafted electromagnetic signals to normal DNA molecules and inducing an opposite current with respect to this extra current, we can prevent the destruction of normal DNA. Finally, we argue that the type of packing of DNA in chromosomes of men and women are different. This causes radiated waves from DNAs of men and women to have opposite signs and cancel the effect of each other in a pair. Using this property, we suggest another mechanism to cancel the effect of extra waves, which are produced by DNAs in cancer cells of a male or a female, by extra waves which are produced by DNAs in similar cells of a female or a male and prevent the progression of the disease.