Environmental Light and Its Relationship with Electromagnetic Resonances of Biomolecular Interactions, as Predicted by the Resonant Recognition Model.

Author: Cosic I1,2, Cosic D3, Lazar K4
1College of Science, Engineering and Health, RMIT University, La Trobe Street, Melbourne, Victoria 3000, Australia. irenacosic@me.com.
2AMALNA Consulting, 46 Second St., Black Rock, Victoria 3193, Australia. irenacosic@me.com.
3AMALNA Consulting, 46 Second St., Black Rock, Victoria 3193, Australia. draskocosic@yahoo.com.au.
4AMALNA Consulting, 46 Second St., Black Rock, Victoria 3193, Australia. katcosic@yahoo.com.au.
Conference/Journal: Int J Environ Res Public Health.
Date published: 2016 Jun 29
Other: Volume ID: 13 , Issue ID: 7 , Word Count: 220

The meaning and influence of light to biomolecular interactions, and consequently to health, has been analyzed using the Resonant Recognition Model (RRM). The RRM proposes that biological processes/interactions are based on electromagnetic resonances between interacting biomolecules at specific electromagnetic frequencies within the infra-red, visible and ultra-violet frequency ranges, where each interaction can be identified by the certain frequency critical for resonant activation of specific biological activities of proteins and DNA. We found that: (1) the various biological interactions could be grouped according to their resonant frequency into super families of these functions, enabling simpler analyses of these interactions and consequently analyses of influence of electromagnetic frequencies to health; (2) the RRM spectrum of all analyzed biological functions/interactions is the same as the spectrum of the sun light on the Earth, which is in accordance with fact that life is sustained by the sun light; (3) the water is transparent to RRM frequencies, enabling proteins and DNA to interact without loss of energy; (4) the spectrum of some artificial sources of light, as opposed to the sun light, do not cover the whole RRM spectrum, causing concerns for disturbance to some biological functions and consequently we speculate that it can influence health.

KEYWORDS: DNA; artificial light; biomolecular electromagnetism; environmental light; protein; protein and DNA interactions; resonant recognition model; sun light

PMID: 27367714 DOI: 10.3390/ijerph13070647