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The Magnetic Compass of Birds: The Role of Cryptochrome

Roswitha Wiltschko, Christine Nießner, Wolfgang Wiltschko

2021Frontiers in Physiology65 citationsDOIOpen Access PDF

Abstract

The geomagnetic field provides directional information for birds. The avian magnetic compass is an inclination compass that uses not the polarity of the magnetic field but the axial course of the field lines and their inclination in space. It works in a flexible functional window, and it requires short-wavelength light. These characteristics result from the underlying sensory mechanism based on radical pair processes in the eyes, with cryptochrome suggested as the receptor molecule. The chromophore of cryptochrome, flavin adenine dinucleotide (FAD), undergoes a photocycle, where radical pairs are formed during photo-reduction as well as during re-oxidation; behavioral data indicate that the latter is crucial for detecting magnetic directions. Five types of cryptochromes are found in the retina of birds: cryptochrome 1a (Cry1a), cryptochrome 1b, cryptochrome 2, cryptochrome 4a, and cryptochrome 4b. Because of its location in the outer segments of the ultraviolet cones with their clear oil droplets, Cry1a appears to be the most likely receptor molecule for magnetic compass information.

Topics & Concepts

CryptochromeMagnetoreceptionCompassFlavin groupFlavin adenine dinucleotideBiophysicsEarth's magnetic fieldBiologyMagnetic fieldPhotochemistryPhysicsChemistryNuclear magnetic resonanceGeneticsCofactorCircadian clockGeneQuantum mechanicsEnzymeElectromagnetic Fields and Biological EffectsNeurobiology and Insect Physiology ResearchImpact of Light on Environment and Health