摘要
This paper discusses the nature of electromagnetic radio signals and summarizes the advances in optogenetics and radiogenetics that have found a substantial number of genes in both humans and other species that can be activated by electromagnetic signals ranging from extremely low frequency (ELF) radio waves through to infrared radio waves as well as visible light and ultra-violet (UV) tremendously high frequency (THF) radio waves. The paper discusses the advances in nanotechnology where DNA is now being used in its capacity as a nanoscale semiconductor to act as the scaffold for supporting nanoscale integrated circuits. The research findings are presented that the DNA in vivo when it is immersed in water acts as a conducting nanowire with an alternating current (AC). It is proposed that when there is an alternating current (AC) in the DNA it will be emitting electromagnetic radio waves at the same frequency as the alternating current. In addition, it is noted that brainwaves are extremely low frequency (ELF) radio waves and that the DNA as a conducting nanowire would act as a receiver or antenna for these ELF radio waves whereupon an alternating current would be generated in the DNA.
