Do electromagnetic fields interact with electrons in the Na,K-ATPase?
- PMID: 16189824
- DOI: 10.1002/bem.20167
Do electromagnetic fields interact with electrons in the Na,K-ATPase?
Abstract
The effects of low frequency electric and magnetic fields on several biochemical systems, including the Na,K-ATPase, indicate that electromagnetic (EM) fields interact with electrons. The frequency optima for two enzymes in response to EM fields are very close to their turnover numbers, suggesting that these interactions directly affect reaction rates. Nevertheless, generally accepted ideas about Na,K-ATPase function and ion transport mechanisms do not consider interactions with electrons. To resolve the clash of paradigms, we hypothesize interaction with transient electrons and protons that arise from flickering of H-bonds in the hydrated protein. These transient charges in the enzyme could provide a trigger for the sequence of conformation changes that are part of the ion transport mechanism. If the distributions of transient electrons and protons in the membrane are affected by their concentration and the membrane potential, as expected from electric double layer theory, this can account for the different effects of low frequency electric and magnetic fields, as well as for the observation that membrane hyperpolarization reverses the ATPase reaction to generate ATP.
Bioelectromagnetics (c) 2005 Wiley-Liss, Inc.
Comment in
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Comment concerning "Do electromagnetic fields interact with electrons in Na,K-ATPase?" (Bioelectromagnetics 26:677-683 [2005]).Bioelectromagnetics. 2006 Jul;27(5):335; discussion 336. doi: 10.1002/bem.20242. Bioelectromagnetics. 2006. PMID: 16715523 No abstract available.
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