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Alterations in the structure of the electrical double layer adjacent to a charged membrane arising from electromagnetically induced changes in the activity of membrane bound enzymes |
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| Authors: | James D. Bond N. Convers Wyeth |
| Affiliation: | (1) Science Applications International Corporation, 1710 Goodridge Drive, 22102 McLean, Virginia |
| Abstract: | Electromagnetic fields of very low amplitude have been reported to influence a number of cellular functions. Many of these effects have a high degree of frequency specificity. Herein it is suggested that some of these reported results could be explained by a fieldinduced alteration in the enzymic activity of integral membrane proteins. It is shown that such a field-induced transition from an initial nonequilibrium steady-state to a final nonequilibrium steady-state can lead to an alteration in the concentration profiles of those charged species in the cell's ambient electrolyte that comprise the so-called electrical double layer. Examples of variations in the concentration profiles of those ions that react with a membrane-bound enzyme, as well as nonreacting ionic species, are given. The modulation of such effects by systematic variations in extracellular pH and ionic strength is discussed. |
| Keywords: | Electromagnetic double-layer membrane enzyme alterations in membrane structure membrane proteins ionic strength variation extracellular pH variation chromosome puffing nonthermal effects low-intensity field coupling substrate Poisson's equation Gouy-Chapman solution Nernst-Planck electrodiffusion equation Boltzmann factor Michaelis-Menten kinetics |
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