Magnetoelectrochemical Concept of Metabolism: Postulates and Main Conclusions. Part 1. (in Russian) | Part 2. (in Russian)

Part 1 conclusions:

" 1) The life of a biological system is a process of magnetoelectric activation of its biomolecules and it starts and ensures their biochemical activity and structural integrity in their collective interaction of a single organism;

2) modern fundamental knowledge of the level of atomic-molecular magnetoelectric processes of living biological systems should be fully integrated into medical science with a shift in the electrochemical paradigm of metabolism to the magnetoelectrochemical paradigm based on the positions of systemic medicine."

Part 2 conclusions:

" 1) The circuit of the membrane magnetoelectrochemical generation of biological currents A.I. Oshe is a promising universal model of the mechanism of magnetoelectrochemical activity of biological membranes, which is able to adequately explain the possible pathway of a sufficient amount of energy entering the cell;

2) Metabolism, which provides energy supply to living biological systems of various levels of complexity, and all other characteristics of the functions of living organisms, are determined by the properties and features of magnetoelectrochemical processes occurring in them [living biological systems] at the cellular level and causing magnetoelectrochemical excitation of cell membranes and the appearance of biocurrents in them;

3) The cells of living biological systems, including humans, are the following hierarchical. They are holistic quantum-mechanical systems with periodic communication, self-consistent morphological structure of organization; сells create their own field superposition/field/matrix in the millimeter wavelength range with a frequency of 10¹⁰-10¹¹ Hz due to their oscillatory activity. This is the quantum mechanical result of their electromagnetic energy interaction. The structure and function of cells are supported by this superposition as well. The information and energy processes of the cellular phenomenology of life are in the biological range (from 10¹⁴ Hz and below), they are optical, they are represented by photons/Davydov solitons with a wavelength >1 μm to 0 and energy <0.5 eV and to 0, they coincide with the optical region of the electromagnetic spectrum of the Sun and they are much less than the levels of the energies of ionization and excitation of atoms and molecules in this case."