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Genome-wide transcription analysis of Escherichia coli in response to extremely low-frequency magnetic fields
The widespread use of electricity raises the question of whether or not 50 Hz (power line frequency in Europe) magnetic fields (MFs) affect organisms. We investigated the transcription of Escherichia coli K‐12 MG1655 in response to extremely low‐frequency (ELF) MFs. Fields generated by three signal...
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| Published in: | Bioelectromagnetics 2012-09, Vol.33 (6), p.488-496 |
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| Main Authors: | , , , , , , , |
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| container_end_page | 496 |
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| container_title | Bioelectromagnetics |
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| creator | Huwiler, Simona G. Beyer, Christian Fröhlich, Jürg Hennecke, Hauke Egli, Thomas Schürmann, David Rehrauer, Hubert Fischer, Hans-Martin |
| description | The widespread use of electricity raises the question of whether or not 50 Hz (power line frequency in Europe) magnetic fields (MFs) affect organisms. We investigated the transcription of Escherichia coli K‐12 MG1655 in response to extremely low‐frequency (ELF) MFs. Fields generated by three signal types (sinusoidal continuous, sinusoidal intermittent, and power line intermittent; all at 50 Hz, 1 mT) were applied and gene expression was monitored at the transcript level using an Affymetrix whole‐genome microarray. Bacterial cells were grown continuously in a chemostat (dilution rate D = 0.4 h−1) fed with glucose‐limited minimal medium and exposed to 50 Hz MFs with a homogenous flux density of 1 mT. For all three types of MFs investigated, neither bacterial growth (determined using optical density) nor culturable counts were affected. Likewise, no statistically significant change (fold‐change > 2, P ≤ 0.01) in the expression of 4,358 genes and 714 intergenic regions represented on the gene chip was detected after MF exposure for 2.5 h (1.4 generations) or 15 h (8.7 generations). Moreover, short‐term exposure (8 min) to the sinusoidal continuous and power line intermittent signal neither affected bacterial growth nor showed evidence for reliable changes in transcription. In conclusion, our experiments did not indicate that the different tested MFs (50 Hz, 1 mT) affected the transcription of E. coli. Bioelectromagnetics 33:488–496, 2012. © 2012 Wiley Periodicals, Inc. |
| doi_str_mv | 10.1002/bem.21709 |
| format | article |
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We investigated the transcription of Escherichia coli K‐12 MG1655 in response to extremely low‐frequency (ELF) MFs. Fields generated by three signal types (sinusoidal continuous, sinusoidal intermittent, and power line intermittent; all at 50 Hz, 1 mT) were applied and gene expression was monitored at the transcript level using an Affymetrix whole‐genome microarray. Bacterial cells were grown continuously in a chemostat (dilution rate D = 0.4 h−1) fed with glucose‐limited minimal medium and exposed to 50 Hz MFs with a homogenous flux density of 1 mT. For all three types of MFs investigated, neither bacterial growth (determined using optical density) nor culturable counts were affected. Likewise, no statistically significant change (fold‐change > 2, P ≤ 0.01) in the expression of 4,358 genes and 714 intergenic regions represented on the gene chip was detected after MF exposure for 2.5 h (1.4 generations) or 15 h (8.7 generations). Moreover, short‐term exposure (8 min) to the sinusoidal continuous and power line intermittent signal neither affected bacterial growth nor showed evidence for reliable changes in transcription. In conclusion, our experiments did not indicate that the different tested MFs (50 Hz, 1 mT) affected the transcription of E. coli. 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We investigated the transcription of Escherichia coli K‐12 MG1655 in response to extremely low‐frequency (ELF) MFs. Fields generated by three signal types (sinusoidal continuous, sinusoidal intermittent, and power line intermittent; all at 50 Hz, 1 mT) were applied and gene expression was monitored at the transcript level using an Affymetrix whole‐genome microarray. Bacterial cells were grown continuously in a chemostat (dilution rate D = 0.4 h−1) fed with glucose‐limited minimal medium and exposed to 50 Hz MFs with a homogenous flux density of 1 mT. For all three types of MFs investigated, neither bacterial growth (determined using optical density) nor culturable counts were affected. Likewise, no statistically significant change (fold‐change > 2, P ≤ 0.01) in the expression of 4,358 genes and 714 intergenic regions represented on the gene chip was detected after MF exposure for 2.5 h (1.4 generations) or 15 h (8.7 generations). Moreover, short‐term exposure (8 min) to the sinusoidal continuous and power line intermittent signal neither affected bacterial growth nor showed evidence for reliable changes in transcription. In conclusion, our experiments did not indicate that the different tested MFs (50 Hz, 1 mT) affected the transcription of E. coli. 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Moreover, short‐term exposure (8 min) to the sinusoidal continuous and power line intermittent signal neither affected bacterial growth nor showed evidence for reliable changes in transcription. In conclusion, our experiments did not indicate that the different tested MFs (50 Hz, 1 mT) affected the transcription of E. coli. Bioelectromagnetics 33:488–496, 2012. © 2012 Wiley Periodicals, Inc.</abstract><cop>Hoboken</cop><pub>Wiley Subscription Services, Inc., A Wiley Company</pub><pmid>22331529</pmid><doi>10.1002/bem.21709</doi><tpages>9</tpages></addata></record> |
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| subjects | bacteria chemostat Electromagnetic Fields - adverse effects Escherichia coli K12 - genetics Escherichia coli K12 - radiation effects extremely low-frequency electromagnetic field (ELF-EMF) gene expression Gene Expression Profiling Genome, Bacterial - genetics microarray Transcription, Genetic - radiation effects |
| title | Genome-wide transcription analysis of Escherichia coli in response to extremely low-frequency magnetic fields |
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