Litcius/Paper detail

Cryptochromes: Photochemical and structural insight into magnetoreception

Nischal Karki, Satyam Vergish, Brian D. Zoltowski

2021Protein Science45 citationsDOIOpen Access PDF

Abstract

Cryptochromes (CRYs) function as blue light photoreceptors in diverse physiological processes in nearly all kingdoms of life. Over the past several decades, they have emerged as the most likely candidates for light-dependent magnetoreception in animals, however, a long history of conflicts between in vitro photochemistry and in vivo behavioral data complicate validation of CRYs as a magnetosensor. In this review, we highlight the origins of conflicts regarding CRY photochemistry and signal transduction, and identify recent data that provides clarity on potential mechanisms of signal transduction in magnetoreception. The review primarily focuses on examining differences in photochemistry and signal transduction in plant and animal CRYs, and identifies potential modes of convergent evolution within these independent lineages that may identify conserved signaling pathways.

Topics & Concepts

CryptochromeMagnetoreceptionChemistryPhotochemistryBiophysicsBiochemistryBiologyPhysicsCircadian clockEarth's magnetic fieldMagnetic fieldGeneQuantum mechanicsPhotoreceptor and optogenetics researchLight effects on plantsElectromagnetic Fields and Biological Effects