Magnetic sensitivity of cryptochrome 4 from a migratory songbird

Jingjing Xu¹, Lauren E Jarocha², Tilo Zollitsch², Marcin Konowalczyk³, Kevin B Henbest^{2

3}, Sabine Richert⁴, Matthew J Golesworthy³, Jessica Schmidt¹, Victoire Déjean³, Daniel J C Sowood², Marco Bassetto^{1

2}, Jiate Luo², Jessica R Walton², Jessica Fleming², Yujing Wei², Tommy L Pitcher³, Gabriel Moise³, Maike Herrmann¹, Hang Yin⁵, Haijia Wu⁶, Rabea Bartölke¹, Stefanie J Käsehagen¹, Simon Horst¹, Glen Dautaj¹, Patrick D F Murton², Angela S Gehrckens², Yogarany Chelliah^{7

8}, Joseph S Takahashi^{7

8}, Karl-Wilhelm Koch^{6

9}, Stefan Weber⁴, Ilia A Solov'yov^{10

11}, Can Xie^{12

13}, Stuart R Mackenzie¹⁴, Christiane R Timmel^{15

16}, Henrik Mouritsen^{17

18}, P J Hore¹⁹

Affiliations

¹ AG Neurosensory Sciences/Animal Navigation, Institut für Biologie und Umweltwissenschaften, Carl-von-Ossietzky Universität Oldenburg, Oldenburg, Germany.
² Physical and Theoretical Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK.
³ Inorganic Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK.
⁴ Institut für Physikalische Chemie, Albert-Ludwigs-Universität Freiburg, Freiburg, Germany.
⁵ Department of Medicinal Chemistry and Molecular Pharmacology, Purdue University, West Lafayette, IN, USA.
⁶ Division of Biochemistry, Department of Neuroscience, Carl-von-Ossietzky-Universität Oldenburg, Oldenburg, Germany.
⁷ Department of Neuroscience, University of Texas Southwestern Medical Center, Dallas, TX, USA.
⁸ Howard Hughes Medical Institute, University of Texas Southwestern Medical Center, Dallas, TX, USA.
⁹ Research Centre for Neurosensory Science, University of Oldenburg, Oldenburg, Germany.
¹⁰ Research Centre for Neurosensory Science, University of Oldenburg, Oldenburg, Germany. ilia.solovyov@uni-oldenburg.de.
¹¹ Department of Physics, Carl-von-Ossietzky Universität Oldenburg, Oldenburg, Germany. ilia.solovyov@uni-oldenburg.de.
¹² High Magnetic Field Laboratory, Key Laboratory of High Magnetic Field and Ion Beam Physical Biology, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei, PR China. canxie@hmfl.ac.cn.
¹³ International Magnetobiology Frontier Research Center, Hefei, PR China. canxie@hmfl.ac.cn.
¹⁴ Physical and Theoretical Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK. stuart.mackenzie@chem.ox.ac.uk.
¹⁵ Inorganic Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK. christiane.timmel@chem.ox.ac.uk.
¹⁶ Centre for Advanced Electron Spin Resonance (CAESR), Department of Chemistry, University of Oxford, Oxford, UK. christiane.timmel@chem.ox.ac.uk.
¹⁷ AG Neurosensory Sciences/Animal Navigation, Institut für Biologie und Umweltwissenschaften, Carl-von-Ossietzky Universität Oldenburg, Oldenburg, Germany. henrik.mouritsen@uni-oldenburg.de.
¹⁸ Research Centre for Neurosensory Science, University of Oldenburg, Oldenburg, Germany. henrik.mouritsen@uni-oldenburg.de.
¹⁹ Physical and Theoretical Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK. peter.hore@chem.ox.ac.uk.

PMID: 34163056
DOI: 10.1038/s41586-021-03618-9

Magnetic sensitivity of cryptochrome 4 from a migratory songbird

Jingjing Xu et al. Nature. 2021 Jun.

. 2021 Jun;594(7864):535-540.

doi: 10.1038/s41586-021-03618-9. Epub 2021 Jun 23.

Authors

Affiliations

¹ AG Neurosensory Sciences/Animal Navigation, Institut für Biologie und Umweltwissenschaften, Carl-von-Ossietzky Universität Oldenburg, Oldenburg, Germany.
² Physical and Theoretical Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK.
³ Inorganic Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK.
⁴ Institut für Physikalische Chemie, Albert-Ludwigs-Universität Freiburg, Freiburg, Germany.
⁵ Department of Medicinal Chemistry and Molecular Pharmacology, Purdue University, West Lafayette, IN, USA.
⁶ Division of Biochemistry, Department of Neuroscience, Carl-von-Ossietzky-Universität Oldenburg, Oldenburg, Germany.
⁷ Department of Neuroscience, University of Texas Southwestern Medical Center, Dallas, TX, USA.
⁸ Howard Hughes Medical Institute, University of Texas Southwestern Medical Center, Dallas, TX, USA.
⁹ Research Centre for Neurosensory Science, University of Oldenburg, Oldenburg, Germany.
¹⁰ Research Centre for Neurosensory Science, University of Oldenburg, Oldenburg, Germany. ilia.solovyov@uni-oldenburg.de.
¹¹ Department of Physics, Carl-von-Ossietzky Universität Oldenburg, Oldenburg, Germany. ilia.solovyov@uni-oldenburg.de.
¹² High Magnetic Field Laboratory, Key Laboratory of High Magnetic Field and Ion Beam Physical Biology, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei, PR China. canxie@hmfl.ac.cn.
¹³ International Magnetobiology Frontier Research Center, Hefei, PR China. canxie@hmfl.ac.cn.
¹⁴ Physical and Theoretical Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK. stuart.mackenzie@chem.ox.ac.uk.
¹⁵ Inorganic Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK. christiane.timmel@chem.ox.ac.uk.
¹⁶ Centre for Advanced Electron Spin Resonance (CAESR), Department of Chemistry, University of Oxford, Oxford, UK. christiane.timmel@chem.ox.ac.uk.
¹⁷ AG Neurosensory Sciences/Animal Navigation, Institut für Biologie und Umweltwissenschaften, Carl-von-Ossietzky Universität Oldenburg, Oldenburg, Germany. henrik.mouritsen@uni-oldenburg.de.
¹⁸ Research Centre for Neurosensory Science, University of Oldenburg, Oldenburg, Germany. henrik.mouritsen@uni-oldenburg.de.
¹⁹ Physical and Theoretical Chemistry Laboratory, Department of Chemistry, University of Oxford, Oxford, UK. peter.hore@chem.ox.ac.uk.

PMID: 34163056
DOI: 10.1038/s41586-021-03618-9

Abstract

Night-migratory songbirds are remarkably proficient navigators¹. Flying alone and often over great distances, they use various directional cues including, crucially, a light-dependent magnetic compass^2,3. The mechanism of this compass has been suggested to rely on the quantum spin dynamics of photoinduced radical pairs in cryptochrome flavoproteins located in the retinas of the birds^4-7. Here we show that the photochemistry of cryptochrome 4 (CRY4) from the night-migratory European robin (Erithacus rubecula) is magnetically sensitive in vitro, and more so than CRY4 from two non-migratory bird species, chicken (Gallus gallus) and pigeon (Columba livia). Site-specific mutations of ErCRY4 reveal the roles of four successive flavin-tryptophan radical pairs in generating magnetic field effects and in stabilizing potential signalling states in a way that could enable sensing and signalling functions to be independently optimized in night-migratory birds.

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Comment in

Unravelling the enigma of bird magnetoreception.
Warrant EJ. Warrant EJ. Nature. 2021 Jun;594(7864):497-498. doi: 10.1038/d41586-021-01596-6. Nature. 2021. PMID: 34163048 No abstract available.

References

1. Mouritsen, H. Long-distance navigation and magnetoreception in migratory animals. Nature 558, 50–59 (2018). - PubMed - DOI
1. Wiltschko, W., Munro, U., Ford, H. & Wiltschko, R. Red-light disrupts magnetic orientation of migratory birds. Nature 364, 525–527 (1993). - DOI
1. Zapka, M. et al. Visual but not trigeminal mediation of magnetic compass information in a migratory bird. Nature 461, 1274–1277 (2009). - PubMed - DOI
1. Hore, P. J. & Mouritsen, H. The radical-pair mechanism of magnetoreception. Annu. Rev. Biophys. 45, 299–344 (2016). - PubMed - DOI
1. Ritz, T., Adem, S. & Schulten, K. A model for photoreceptor-based magnetoreception in birds. Biophys. J. 78, 707–718 (2000). - PubMed - PMC - DOI

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Magnetic sensitivity of cryptochrome 4 from a migratory songbird

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Magnetic sensitivity of cryptochrome 4 from a migratory songbird

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