Search Results - "HORE, P. J"

The Radical-Pair Mechanism of Magnetoreception by Hore, P. J, Mouritsen, Henrik

“…Although it has been known for almost half a century that migratory birds can detect the direction of the Earth's magnetic field, the primary sensory mechanism…”
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Chiral-induced spin selectivity in the formation and recombination of radical pairs: cryptochrome magnetoreception and EPR detection by Luo, Jiate, Hore, P J

“…Abstract That the rates and yields of reactions of organic radicals can be spin dependent is well known in the context of the radical pair mechanism (RPM)…”
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Are biochemical reactions affected by weak magnetic fields? by Hore, P. J.

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Upper bound on the biological effects of 50/60 Hz magnetic fields mediated by radical pairs by Hore, P J

“…Prolonged exposure to weak (~1 μT) extremely-low-frequency (ELF, 50/60 Hz) magnetic fields has been associated with an increased risk of childhood leukaemia…”
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Chemical magnetoreception in birds: The radical pair mechanism by Rodgers, Christopher T, Hore, P.J

“…Migratory birds travel vast distances each year, finding their way by various means, including a remarkable ability to perceive the Earth's magnetic field…”
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Electron spin relaxation in cryptochrome-based magnetoreception by Kattnig, Daniel R, Solov'yov, Ilia A, Hore, P J

“…The magnetic compass sense of migratory birds is thought to rely on magnetically sensitive radical pairs formed photochemically in cryptochrome proteins in the…”
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Anthropogenic electromagnetic noise disrupts magnetic compass orientation in a migratory bird by Engels, Svenja, Schneider, Nils-Lasse, Lefeldt, Nele, Hein, Christine Maira, Zapka, Manuela, Michalik, Andreas, Elbers, Dana, Kittel, Achim, Hore, P. J., Mouritsen, Henrik

“…For the first time under reproducible and fully double-blinded conditions, it is shown that anthropogenic electromagnetic noise below the WHO limits affects a…”
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Magnetically sensitive light-induced reactions in cryptochrome are consistent with its proposed role as a magnetoreceptor by Maeda, Kiminori, Robinson, Alexander J, Henbest, Kevin B, Hogben, Hannah J, Biskup, Till, Ahmad, Margaret, Schleicher, Erik, Weber, Stefan, Timmel, Christiane R, Hore, P. J

“…Among the biological phenomena that fall within the emerging field of "quantum biology" is the suggestion that magnetically sensitive chemical reactions are…”
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Proteins as nanomagnets and magnetoreceptors by Hore, P J

“…It is an appealing notion that a protein molecule could act as a nanomagnet. A genetically encodable biomolecule with a permanent magnetic moment at room…”
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The quantum needle of the avian magnetic compass by Hiscock, Hamish G., Worster, Susannah, Kattnig, Daniel R., Steers, Charlotte, Jin, Ye, Manolopoulos, David E., Mouritsen, Henrik, Hore, P. J.

“…Migratory birds have a light-dependent magnetic compass, the mechanism of which is thought to involve radical pairs formed photochemically in cryptochrome…”
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The magnetic retina: light-dependent and trigeminal magnetoreception in migratory birds by Mouritsen, Henrik, Hore, PJ

“…Highlights ► Night migratory songbirds have two magnetic senses. ► Light-dependent compass information is sensed in the eye and processed in Cluster N and may…”
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Electron spin relaxation can enhance the performance of a cryptochrome-based magnetic compass sensor by Kattnig, Daniel R, Sowa, Jakub K, Solov'yov, Ilia A, Hore, P J

“…The radical pair model of the avian magnetoreceptor relies on long-lived electron spin coherence. Dephasing, resulting from interactions of the spins with…”
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Disruption of Magnetic Compass Orientation in Migratory Birds by Radiofrequency Electromagnetic Fields by Hiscock, Hamish G., Mouritsen, Henrik, Manolopoulos, David E., Hore, P.J.

“…The radical-pair mechanism has been put forward as the basis of the magnetic compass sense of migratory birds. Some of the strongest supporting evidence has…”
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Chemical magnetoreception: bird cryptochrome 1a is excited by blue light and forms long-lived radical-pairs by Liedvogel, Miriam, Maeda, Kiminori, Henbest, Kevin, Schleicher, Erik, Simon, Thomas, Timmel, Christiane R, Hore, P J, Mouritsen, Henrik

“…Cryptochromes (Cry) have been suggested to form the basis of light-dependent magnetic compass orientation in birds. However, to function as magnetic compass…”
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Entanglement and sources of magnetic anisotropy in radical pair-based avian magnetoreceptors by Hogben, Hannah J, Biskup, Till, Hore, P J

“…One of the principal models of magnetic sensing in migratory birds rests on the quantum spin dynamics of transient radical pairs created photochemically in…”
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Chemical compass model of avian magnetoreception by Timmel, Christiane R, Hore, P. J, Maeda, Kiminori, Henbest, Kevin B, Cintolesi, Filippo, Kuprov, Ilya, Rodgers, Christopher T, Liddell, Paul A, Gust, Devens

“…Approximately 50 species, including birds, mammals, reptiles, amphibians, fish, crustaceans and insects, are known to use the Earth's magnetic field for…”
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Chemical compass behaviour at microtesla magnetic fields strengthens the radical pair hypothesis of avian magnetoreception by Kerpal, Christian, Richert, Sabine, Storey, Jonathan G., Pillai, Smitha, Liddell, Paul A., Gust, Devens, Mackenzie, Stuart R., Hore, P. J., Timmel, Christiane R.

“…The fact that many animals, including migratory birds, use the Earth’s magnetic field for orientation and compass-navigation is fascinating and puzzling in…”
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Alternative radical pairs for cryptochrome-based magnetoreception by Lee, Alpha A., Lau, Jason C. S., Hogben, Hannah J., Biskup, Till, Kattnig, Daniel R., Hore, P. J.

“…There is growing evidence that the remarkable ability of animals, in particular birds, to sense the direction of the Earth's magnetic field relies on…”
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Chemical amplification of magnetic field effects relevant to avian magnetoreception by Kattnig, Daniel R., Evans, Emrys W., Déjean, Victoire, Dodson, Charlotte A., Wallace, Mark I., Mackenzie, Stuart R., Timmel, Christiane R., Hore, P. J.

“…Magnetic fields as weak as the Earth's can change the yields of radical pair reactions even though the energies involved are orders of magnitude smaller than…”
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Millitesla magnetic field effects on the photocycle of an animal cryptochrome by Sheppard, Dean M. W., Li, Jing, Henbest, Kevin B., Neil, Simon R. T., Maeda, Kiminori, Storey, Jonathan, Schleicher, Erik, Biskup, Till, Rodriguez, Ryan, Weber, Stefan, Hore, P. J., Timmel, Christiane R., Mackenzie, Stuart R.

“…Drosophila have been used as model organisms to explore both the biophysical mechanisms of animal magnetoreception and the possibility that weak, low-frequency…”
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