Effect of magnetic fields on cryptochrome-dependent responses in Arabidopsis thaliana
Effect of magnetic fields on cryptochrome-dependent responses in Arabidopsis thaliana
The scientific literature describing the effects of weak magnetic fields on living systems contains a plethora of contradictory reports, few successful independent replication studies and a dearth of plausible biophysical interaction mechanisms. Most such investigations have been unsystematic, devoid of testable theoretical predictions and, ultimately, unconvincing. A recent study, of magnetic responses in the model plant Arabidopsis thaliana, however, stands out; it has a clear hypothesis-that seedling growth is magnetically sensitive as a result of photoinduced radical-pair reactions in cryptochrome photoreceptors-tested by measuring several cryptochrome-dependent responses, all of which proved to be enhanced in a magnetic field of intensity 500 muT. The potential importance of this study in the debate on putative effects of extremely low-frequency electromagnetic fields on human health prompted us to subject it to the 'gold standard' of independent replication. With experimental conditions chosen to match those of the original study, we have measured hypocotyl lengths and anthocyanin accumulation for Arabidopsis seedlings grown in a 500 microT magnetic field, with simultaneous control experiments at 50 microT. Additionally, we have determined hypocotyl lengths of plants grown in 50 microT, 1 mT and approximately 100 mT magnetic fields (with zero-field controls), measured gene (CHS, HY5 and GST) expression levels, investigated blue-light intensity effects and explored the influence of sucrose in the growth medium. In no case were consistent, statistically significant magnetic field responses detected
1193-1205
Harris, Sue-Re
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Henbest, Kevin B.
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Maeda, Kiminori
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Pannell, John R.
ac656001-e95e-4ea7-84fe-705bf7747de6
Timmell, Christiane R.
acb16b34-d81f-48c7-8ec4-06c96bcea816
Hore, P.J.
cad4561e-9571-4b49-b633-1c0bb470d144
Okamoto, Haruko
cea35380-7618-44c8-a268-47b0198cc7f9
2009
Harris, Sue-Re
870b530c-c0a7-43cf-bc10-924384bd19d9
Henbest, Kevin B.
4b3cbf7f-0b54-4f43-95b8-94af85e14bb0
Maeda, Kiminori
11cc5eb2-dcda-4b84-b365-5732a24e9cf9
Pannell, John R.
ac656001-e95e-4ea7-84fe-705bf7747de6
Timmell, Christiane R.
acb16b34-d81f-48c7-8ec4-06c96bcea816
Hore, P.J.
cad4561e-9571-4b49-b633-1c0bb470d144
Okamoto, Haruko
cea35380-7618-44c8-a268-47b0198cc7f9
Harris, Sue-Re, Henbest, Kevin B., Maeda, Kiminori, Pannell, John R., Timmell, Christiane R., Hore, P.J. and Okamoto, Haruko
(2009)
Effect of magnetic fields on cryptochrome-dependent responses in Arabidopsis thaliana.
Journal of the Royal Society Interface, 6 (41), .
(doi:10.1098/rsif.2008.0519).
(PMID:19324677)
Abstract
The scientific literature describing the effects of weak magnetic fields on living systems contains a plethora of contradictory reports, few successful independent replication studies and a dearth of plausible biophysical interaction mechanisms. Most such investigations have been unsystematic, devoid of testable theoretical predictions and, ultimately, unconvincing. A recent study, of magnetic responses in the model plant Arabidopsis thaliana, however, stands out; it has a clear hypothesis-that seedling growth is magnetically sensitive as a result of photoinduced radical-pair reactions in cryptochrome photoreceptors-tested by measuring several cryptochrome-dependent responses, all of which proved to be enhanced in a magnetic field of intensity 500 muT. The potential importance of this study in the debate on putative effects of extremely low-frequency electromagnetic fields on human health prompted us to subject it to the 'gold standard' of independent replication. With experimental conditions chosen to match those of the original study, we have measured hypocotyl lengths and anthocyanin accumulation for Arabidopsis seedlings grown in a 500 microT magnetic field, with simultaneous control experiments at 50 microT. Additionally, we have determined hypocotyl lengths of plants grown in 50 microT, 1 mT and approximately 100 mT magnetic fields (with zero-field controls), measured gene (CHS, HY5 and GST) expression levels, investigated blue-light intensity effects and explored the influence of sucrose in the growth medium. In no case were consistent, statistically significant magnetic field responses detected
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Published date: 2009
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Centre for Biological Sciences
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Local EPrints ID: 362159
URI: http://eprints.soton.ac.uk/id/eprint/362159
PURE UUID: 7936c999-17c2-44cd-a012-1ebc2879183d
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Date deposited: 14 Mar 2014 09:03
Last modified: 14 Mar 2024 16:01
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Author:
Sue-Re Harris
Author:
Kevin B. Henbest
Author:
Kiminori Maeda
Author:
John R. Pannell
Author:
Christiane R. Timmell
Author:
P.J. Hore
Author:
Haruko Okamoto
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