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Cryptochrome 1 mediates light-dependent inclination magnetosensing in monarch butterflies

Biology

Cryptochrome 1 mediates light-dependent inclination magnetosensing in monarch butterflies

G. Wan, A. N. Hayden, et al.

This research conducted by Guijun Wan, Ashley N. Hayden, Samantha E. Iiams, and Christine Merlin delves into the fascinating world of magnetoreception in monarch butterflies. The study uncovers how these remarkable creatures can sense the Earth’s magnetic field, relying on UV-A/blue light and the CRY1 protein while revealing the roles of their antennae and eyes as magnetosensory organs.... show more
Abstract
Many animals use the Earth's geomagnetic field for orientation and navigation. Yet, the molecular and cellular underpinnings of the magnetic sense remain largely unknown. A biophysical model proposed that magnetoreception can be achieved through quantum effects of magnetically-sensitive radical pairs formed by the photoexcitation of cryptochrome (CRY) proteins. Studies in Drosophila are the only ones to date to have provided compelling evidence for the ultraviolet (UV)-A/blue light-sensitive type 1 CRY (CRY1) involvement in animal magnetoreception, and surprisingly extended this discovery to the light-insensitive mammalian-like type 2 CRYs (CRY2s) of both monarchs and humans. Here, we show that monarchs respond to a reversal of the inclination of the Earth's magnetic field in an UV-A/blue light and CRY1, but not CRY2, dependent manner. We further demonstrate that both antennae and eyes, which express CRY1, are magnetosensory organs. Our work argues that only light-sensitive CRYs function in animal light-dependent inclination-based magnetic sensing.
Publisher
Nature Communications
Published On
Nov 16, 2021
Authors
Guijun Wan, Ashley N. Hayden, Samantha E. Iiams, Christine Merlin
DOI
https://doi.org/10.1038/s41467-021-21002-z
Tags
magnetoreception
monarch butterflies
CRY1 protein
magnetic sensing
inclination
light sensitivity
cryptochrome

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