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Rotational-electric principles of RNA/DNA and viability.

Authors :
Marks, Roman
Pawłowski, Piotr H.
Source :
AIMS Biophysics; 2023, Vol. 10 Issue 3, p385-400, 16p
Publication Year :
2023

Abstract

Photographic investigations of rising bubbles in seawater revealed that each bubble may conduct a single or bi-spiraling motion, which resemble architecture of RNA or DNA respectively. The rotational motion results from acceleration of ionic hydrates, which are separated to anionic and cationic domains at the upper and bottom curvatures of the bubble. Afterwards, rotational motion undergoes further acceleration in the bubble upper vortex, followed by deceleration at the vortex tip. During that phase, the spiraling motion cause significant friction that result in polarization of electronegative atoms of H, C, N, O and P. These may be simultaneously arranged around a whirling cationic strands and form phosphate groups, ribose and nitrogen bases equipped with H2 and H3 rotors. It is hypothesized that such hydrogen rotors may operate as generators of electrons, which may be detached from valence shells of electropositive atoms. Then, electrons may flow via nitrogen bases and deoxyribose or ribose to phosphate groups. Next, the negatively charged edges of phosphate groups may attract cationic hydrates and energize their rotational motion in the grooves, then causing also its spiraling projection outward. That may be responsible for replication of nucleotides and its arrangement along the cationic flow into RNA or DNA polymers, in the same manner as originally produced by rising bubbles. Moreover, it points that hydrogen rotors may generate energy needed for viability as well as interact with all physical and chemical fields. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
23779098
Volume :
10
Issue :
3
Database :
Complementary Index
Journal :
AIMS Biophysics
Publication Type :
Academic Journal
Accession number :
173741373
Full Text :
https://doi.org/10.3934/biophy.2023023