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Cryptochrome-dependent magnetoreception in a heteropteran insect continues even after 24 h in darkness

Radek Netušil, Kateřina Tomanová, Lenka Chodáková, Daniela Chvalová, David Doležel, Thorsten Ritz, Martin Vácha

2021Journal of Experimental Biology24 citationsDOIOpen Access PDF

Abstract

Sensitivity to magnetic fields is dependent on the intensity and color of light in several animal species. The light-dependent magnetoreception working model points to cryptochrome (Cry) as a protein cooperating with its co-factor flavin, which possibly becomes magnetically susceptible upon excitation by light. The type of Cry involved and what pair of magnetosensitive radicals are responsible is still elusive. Therefore, we developed a conditioning assay for the firebug Pyrrhocoris apterus, an insect species that possesses only the mammalian cryptochrome (Cry II). Here, using the engineered Cry II null mutant, we show that: (i) vertebrate-like Cry II is an essential component of the magnetoreception response, and (ii) magnetic conditioning continues even after 25 h in darkness. The light-dependent and dark-persisting magnetoreception based on Cry II may inspire new perspectives in magnetoreception and cryptochrome research.

Topics & Concepts

MagnetoreceptionCryptochromeBiologyInsectDarknessNeuroscienceEcologyBotanyPhysicsCircadian rhythmEarth's magnetic fieldCircadian clockMagnetic fieldQuantum mechanicsElectromagnetic Fields and Biological EffectsMagnetic and Electromagnetic EffectsCircadian rhythm and melatonin
Cryptochrome-dependent magnetoreception in a heteropteran insect continues even after 24 h in darkness | Litcius