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Direct Interaction of Avian Cryptochrome 4 with a Cone Specific G-Protein

Katharina Görtemaker, Chad Yee, Rabea Bartölke, Heide Behrmann, Jan-Oliver Voß, Jessica Schmidt, Jingjing Xu, Vita Solovyeva, Bo Leberecht, Elmar Behrmann, Henrik Mouritsen, Karl‐Wilhelm Koch

2022Cells38 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Night-migratory birds sense the Earth's magnetic field by an unknown molecular mechanism. Theoretical and experimental evidence support the hypothesis that the light-induced formation of a radical-pair in European robin cryptochrome 4a (ErCry4a) is the primary signaling step in the retina of the bird. In the present work, we investigated a possible route of cryptochrome signaling involving the α-subunit of the cone-secific heterotrimeric G protein from European robin. METHODS: Protein-protein interaction studies include surface plasmon resonance, pulldown affinity binding and Förster resonance energy transfer. RESULTS: Surface plasmon resonance studies showed direct interaction, revealing high to moderate affinity for binding of non-myristoylated and myristoylated G protein to ErCry4a, respectively. Pulldown affinity experiments confirmed this complex formation in solution. We validated these in vitro data by monitoring the interaction between ErCry4a and G protein in a transiently transfected neuroretinal cell line using Förster resonance energy transfer. CONCLUSIONS: Our results suggest that ErCry4a and the G protein also interact in living cells and might constitute the first biochemical signaling step in radical-pair-based magnetoreception.

Topics & Concepts

CryptochromeHeterotrimeric G proteinFörster resonance energy transferSurface plasmon resonanceProtein–protein interactionTransducinBiophysicsCell biologyBiologyG proteinSignal transductionChemistryBiochemistryNanotechnologyPhysicsMaterials scienceFluorescenceGeneCircadian clockNanoparticleQuantum mechanicsElectromagnetic Fields and Biological EffectsPhotoreceptor and optogenetics researchCircadian rhythm and melatonin
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