It is well-established that DNA behaves similar to an insulated electric wire. Previously, it has been suggested by the authors that DNA wrapped around the nucleosome behaves like electric induction coil. It had also been hypothesized by the authors that similar nucleosomal structures would resonate with each other. Here, it is further hypothesized that natural polynucleosomal structures have similar electromagnetic property as metamaterials because polynucleosomes and metamaterials have induction coils positioned at nearly perpendicular angles to each other. Based on that, it is predicted here that polynucleosomal structures in the cell would exhibit some of the properties of metamaterials. That is when an incident wave of specific frequency excites the polynucleosomal structure, it would create an electromagnetic field which would spread outside of the polynucleosomal structure and interfere with the incident wave, creating complex patterns of electromagnetic field as it is happening in metamaterials. It is also hypothesized here that such secondary electromagnetic field structures produced outside of polynucleosomes can be dynamic and can be used by the nature to regulate chromatin structure, catalyze reactions in the nucleus and the cytoplasm and collectively produce the morphogenetic field of the organism. Therefore, understanding of electromagnetic resonance in polynucleosomes should lead to better understanding of electromagnetic nature of morphogenesis and morphostasis. We noticed that tetranucleosomes resemble nanomaterial, more specifically Negative-Refraction Metamaterial. We suggest that tetranucleosomes may produce external patterns of electromagnetic fields which could be utilized by nature for 1. Gene regulation, 2. Control of cellular processes 3. Control of morphogenesis and morphostasis.
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[v1] 2018-03-10 06:28:53
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