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Author  |
Kroupova, J.; Bartova, E.; Fojt, L.; Strasak, L.; Kozubek, S.; Vetterl, V. |
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Title |
Low-frequency magnetic field effect on cytoskeleton and chromatin |
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Journal Article |
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Year |
2007 |
Publication |
Bioelectrochemistry |
Abbreviated Journal |
Bioelectrochemistry |
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Volume |
70 |
Issue |
1 |
Pages |
96-100 |
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Keywords |
Cell Line, Tumor; Centromere; Chromatin/chemistry/genetics/*metabolism; Chromosomes, Human, Pair 8/genetics/metabolism; Cytoskeleton/*metabolism; *Electromagnetic Fields; Humans |
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Abstract |
The effect of magnetic fields on the living systems is studied in vivo or in vitro in very broad spectrum of organisms, cells and tissues. The mechanism of their acting is not known until now. We studied low-frequency magnetic field effect on cytoskeleton and on the structure of chromatin in human cells. We used cell line of small lung carcinoma (A549) and the effects of magnetic field on cytoskeleton and higher-order chromatin structure were analyzed 96 h of magnetic field exposure. Magnetic field generated by the cylindrical soil was homogenous and the cells were cultivated at 37 degrees C in humidified atmosphere containing 5% CO(2). Magnetic field induction was B(m)=2 mT and the net frequency f=50 Hz. In such affected and control cells the F-actin was estimated using FITC-conjugated Phalloidin and mitochondria were studied using MitoTracker (Molecular Probes). Images of cytoskeleton and genetic loci were acquired using confocal microscopy and analysis was performed by FISH 2.0 software. Slight morphological changes of F-actin filaments and mitochondria were observed in affected cells and nuclear condensation was found. These effects could be related to the process of cell death apoptosis probably induced by magnetic field. The studies aimed at centromeric heterochromatin (9cen) did not show statistically significant changes. Therefore, we suggest that magnetic field has no influence on higher order chromatin structure but certain changes could be observed on the level of cytoskeleton. However, these statements need a thorough verification. Our preliminary experiments will be extended and the effect of magnetic field on another structures of cytoskeleton and cell nuclei will be further studied. |
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ISSN |
1567-5394 |
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WP5 In vitro |
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Notes |
PMID: 16713375 |
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Call Number |
UNIBAS @ david.schuermann @ Kroupova2007 |
Serial |
78 |
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