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Literature DB >> 27001735

Chemical amplification of magnetic field effects relevant to avian magnetoreception.

Daniel R Kattnig¹, Emrys W Evans², Victoire Déjean², Charlotte A Dodson³, Mark I Wallace³, Stuart R Mackenzie¹, Christiane R Timmel², P J Hore¹.

Abstract

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 the thermal energy, kBT, at room temperature. Proposed as the source of the light-dependent magnetic compass in migratory birds, the radical pair mechanism is thought to operate in cryptochrome flavoproteins in the retina. Here we demonstrate that the primary magnetic field effect on flavin photoreactions can be amplified chemically by slow radical termination reactions under conditions of continuous photoexcitation. The nature and origin of the amplification are revealed by studies of the intermolecular flavin-tryptophan and flavin-ascorbic acid photocycles and the closely related intramolecular flavin-tryptophan radical pair in cryptochrome. Amplification factors of up to 5.6 were observed for magnetic fields weaker than 1 mT. Substantial chemical amplification could have a significant impact on the viability of a cryptochrome-based magnetic compass sensor.

Entities: Chemical

Mesh：

Substances：

Year: 2016 PMID： 27001735 DOI： 10.1038/nchem.2447

Source DB: PubMed Journal: Nat Chem ISSN： 1755-4330 Impact factor: 24.427

48 in total

1. Light-induced electron transfer in a cryptochrome blue-light photoreceptor.

Authors: Baldissera Giovani; Martin Byrdin; Margaret Ahmad; Klaus Brettel
Journal: Nat Struct Biol Date: 2003-06

2. Cryptochromes and neuronal-activity markers colocalize in the retina of migratory birds during magnetic orientation.

Authors: Henrik Mouritsen; Ulrike Janssen-Bienhold; Miriam Liedvogel; Gesa Feenders; Julia Stalleicken; Petra Dirks; Reto Weiler
Journal: Proc Natl Acad Sci U S A Date: 2004-09-20 Impact factor: 11.205

3. Magnetically sensitive light-induced reactions in cryptochrome are consistent with its proposed role as a magnetoreceptor.

Authors: Kiminori Maeda; Alexander J Robinson; Kevin B Henbest; Hannah J Hogben; Till Biskup; Margaret Ahmad; Erik Schleicher; Stefan Weber; Christiane R Timmel; P J Hore
Journal: Proc Natl Acad Sci U S A Date: 2012-03-14 Impact factor: 11.205

4. Following radical pair reactions in solution: a step change in sensitivity using cavity ring-down detection.

Authors: Kiminori Maeda; Simon R T Neil; Kevin B Henbest; Stefan Weber; Erik Schleicher; P J Hore; Stuart R Mackenzie; Christiane R Timmel
Journal: J Am Chem Soc Date: 2011-10-17 Impact factor: 15.419

5. Trp triad-dependent rapid photoreduction is not required for the function of Arabidopsis CRY1.

Authors: Jie Gao; Xu Wang; Meng Zhang; Mingdi Bian; Weixian Deng; Zecheng Zuo; Zhenming Yang; Dongping Zhong; Chentao Lin
Journal: Proc Natl Acad Sci U S A Date: 2015-06-23 Impact factor: 11.205

6. Retinal cryptochrome in a migratory passerine bird: a possible transducer for the avian magnetic compass.

Authors: Andrea Möller; Sven Sagasser; Wolfgang Wiltschko; Bernd Schierwater
Journal: Naturwissenschaften Date: 2004-11-17

7. Animal cryptochromes mediate magnetoreception by an unconventional photochemical mechanism.

Authors: Robert J Gegear; Lauren E Foley; Amy Casselman; Steven M Reppert
Journal: Nature Date: 2010-01-24 Impact factor: 49.962

8. Proton nuclear magnetic resonance assignments and surface accessibility of Tryptophan residues in lysozyme using photochemically induced dynamic nuclear polarization spectroscopy.

Authors: P J Hore; R Kaptein
Journal: Biochemistry Date: 1983-04-12 Impact factor: 3.162

9. Determination of radical re-encounter probability distributions from magnetic field effects on reaction yields.

Authors: Christopher T Rodgers; Stuart A Norman; Kevin B Henbest; Christiane R Timmel; P J Hore
Journal: J Am Chem Soc Date: 2007-05-01 Impact factor: 15.419

10. Human cryptochrome exhibits light-dependent magnetosensitivity.

Authors: Lauren E Foley; Robert J Gegear; Steven M Reppert
Journal: Nat Commun Date: 2011-06-21 Impact factor: 14.919

23 in total

Review 1. The magnetic map sense and its use in fine-tuning the migration programme of birds.

Authors: D Heyers; D Elbers; M Bulte; F Bairlein; H Mouritsen
Journal: J Comp Physiol A Neuroethol Sens Neural Behav Physiol Date: 2017-04-01 Impact factor: 1.836

2. Magnetic activation in the brain of the migratory northern wheatear (Oenanthe oenanthe).

Authors: D Elbers; M Bulte; F Bairlein; H Mouritsen; D Heyers
Journal: J Comp Physiol A Neuroethol Sens Neural Behav Physiol Date: 2017-03-30 Impact factor: 1.836

Review 3. Biological effects of the hypomagnetic field: An analytical review of experiments and theories.

Authors: Vladimir N Binhi; Frank S Prato
Journal: PLoS One Date: 2017-06-27 Impact factor: 3.240

4. Ambient and supplemental magnetic fields promote myogenesis via a TRPC1-mitochondrial axis: evidence of a magnetic mitohormetic mechanism.

Authors: Jasmine Lye Yee Yap; Yee Kit Tai; Jürg Fröhlich; Charlene Hui Hua Fong; Jocelyn Naixin Yin; Zi Ling Foo; Sharanya Ramanan; Christian Beyer; Shi Jie Toh; Marco Casarosa; Narendra Bharathy; Monica Palanichamy Kala; Marcel Egli; Reshma Taneja; Chuen Neng Lee; Alfredo Franco-Obregón
Journal: FASEB J Date: 2019-09-13 Impact factor: 5.191

5. Atomistic Insights into Cryptochrome Interprotein Interactions.

Authors: Sarafina M Kimø; Ida Friis; Ilia A Solov'yov
Journal: Biophys J Date: 2018-07-30 Impact factor: 4.033

6. Magnetic sensitivity mediated by the Arabidopsis blue-light receptor cryptochrome occurs during flavin reoxidation in the dark.

Authors: Marootpong Pooam; Louis-David Arthaut; Derek Burdick; Justin Link; Carlos F Martino; Margaret Ahmad
Journal: Planta Date: 2018-09-07 Impact factor: 4.116