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Cryptochrome 1 in Retinal Cone Photoreceptors Suggests a Novel Functional Role in Mammals

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Malkemper,  E. Pascal
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Max Planck Research Group Neurobiology of Magnetoreception, Center of Advanced European Studies and Research (caesar), Max Planck Society;

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Citation

Niessner, C., Denzau, S., Malkemper, E. P., Gross, J. C., Burda, H., Winklhofer, M., et al. (2016). Cryptochrome 1 in Retinal Cone Photoreceptors Suggests a Novel Functional Role in Mammals. Scientific Reports, 6: 21848. doi:10.1038/srep21848.


Cite as: https://hdl.handle.net/21.11116/0000-0009-4A5C-E
Abstract
Cryptochromes are a ubiquitous group of blue-light absorbing flavoproteins that in the mammalian retina have an important role in the circadian clock. In birds, cryptochrome 1a (Cry1a), localized in the UV/violet-sensitive S1 cone photoreceptors, is proposed to be the retinal receptor molecule of the light-dependent magnetic compass. The retinal localization of mammalian Cry1, homologue to avian Cry1a, is unknown, and it is open whether mammalian Cry1 is also involved in magnetic field sensing. To constrain the possible role of retinal Cry1, we immunohistochemically analysed 90 mammalian species across 48 families in 16 orders, using an antiserum against the Cry1 C-terminus that in birds labels only the photo-activated conformation. In the Carnivora families Canidae, Mustelidae and Ursidae, and in some Primates, Cry1 was consistently labeled in the outer segment of the shortwave-sensitive S1 cones. This finding would be compatible with a magnetoreceptive function of Cry1 in these taxa. In all other taxa, Cry1 was not detected by the antiserum that likely also in mammals labels the photo-activated conformation, although Western blots showed Cry1 in mouse retinal cell nuclei. We speculate that in the mouse and the other negative-tested mammals Cry1 is involved in circadian functions as a non-light-responsive protein.