Publication Type |
Journal Article |
School or College |
College of Pharmacy; College of Engineering; School of Medicine |
Department |
Biochemistry; Bioengineering; Electrical & Computer Engineering; Pharmacology & Toxicology |
Creator |
Hendee, Shonn P.; Faour, Fouad A.; Christensen, Douglas A.; Patrick, Baharah; Durney, Carl H.; Blumenthal, Donald K. |
Title |
Effects of weak extremely low frequency magnetic fields on calcium/calmodulin interactions. |
Date |
1996-06 |
Description |
Mechanisms by which weak electromagnetic fields may affect biological systems are of current interest because of their potential health effects. Lednev has proposed an ion parametric resonance hypothesis (Lednev, 1991, Bioelectromagnetics, 12:71-75), which predicts that when the ac, frequency of a combined dc-ac magnetic field equals the cyclotron frequency of calcium, the affinity of calcium for calcium-binding proteins such as calmodulin will be markedly affected. The present study evaluated Lednev's theory using two independent systems, each sensitive to changes in the affinity of calcium for calmodulin. One of the systems used was the calcium/calmodulin-dependent activation of myosin light chain kinase, a system similar to that previously used by Lednev. The other system monitored optical changes in the binding of a fluorescent peptide to the calcium/calmodulin complex. Each system was exposed to a 20.9 microT static field superimposed on a 20.9 microT sinusoidal field over a narrow frequency range centered at 16 Hz, the cyclotron frequency of the unhydrated calcium ion. In contrast to Lednev's predictions, no significant effect of combined dc-ac magnetic fields on calcium/calmodulin interactions was indicated in either experimental system. are of current interest because of their potential health effects. Lednev has proposed an ion parametric resonance hypothesis (Lednev, 1991, Bioelectromagnetics, 12:71-75), which predicts that when the ac, frequency of a combined dc-ac magnetic field equals the cyclotron frequency of calcium, the affinity of calcium for calcium-binding proteins such as calmodulin will be markedly affected. The present study evaluated Lednev's theory using two independent systems, each sensitive to changes in the affinity of calcium for calmodulin. One of the systems used was the calcium/calmodulin-dependent activation of myosin light chain kinase, a system similar to that previously used by Lednev. The other system monitored optical changes in the binding of a fluorescent peptide to the calcium/calmodulin complex. Each system was exposed to a 20.9 microT static field superimposed on a 20.9 microT sinusoidal field over a narrow frequency range centered at 16 Hz, the cyclotron frequency of the unhydrated calcium ion. In contrast to Lednev's predictions, no significant effect of combined dc-ac magnetic fields on calcium/calmodulin interactions was indicated in either experimental system. |
Type |
Text |
Publisher |
Biophysical Society |
Volume |
70 |
Issue |
6 |
First Page |
2915 |
Last Page |
2923 |
Subject |
Electromagnetic Fields; Calcium-binding Proteins; Lednev's Theory |
Subject MESH |
Magnetics; Calcium; Calmodulin; Enzyme Activation; Fluorescent Dyes; Fluorescence Polarization |
Language |
eng |
Bibliographic Citation |
Hendee SP, Faour FA, Christensen DA, Patrick B, Durney CH, Blumenthal DK. The effects of weak extremely low frequency magnetic fields on calcium/calmodulin interactions. Biophys J. 1996 Jun;70(6):2915-23. Retrieved August 29, 2006 from http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pubmed&pubmedid=8744329 |
Format Medium |
application/pdf |
Identifier |
ir-main,358 |
ARK |
ark:/87278/s65m6qc5 |
Setname |
ir_uspace |
ID |
707062 |
Reference URL |
https://collections.lib.utah.edu/ark:/87278/s65m6qc5 |