A Charge-reversal Point Mutation Completely Depletes Flavin Chromophore from European Robin Cryptochrome 4a Protein

Cryptochrome 4a (Cry4a) is a magnetically sensitive protein that could enable night-migratory birds to sense the geomagnetic field for navigation. The key to the protein magnetic sensitivity is the flavin adenine dinucleotide (FAD) cofactor, which initiates the electron transfer within the protein leading to a spin-correlated radical pair. De-spite its importance, the mechanism of FAD binding in avian Cry4a proteins remains unclear. Here we show that point mutagenesis of positively charged arginine residue at position 356 to negatively charged glutamic acid completely depletes FAD binding from European robin ( Erithacus rubecula ) Cry4a. The result indicates that electrostatic in-teractions constitute the primary driving force that enables FAD binding in European robin Cry4a. The finding provides new structural insight into the molecular basis of FAD binding in Cry4 and advances our understanding on the biophysical underpinnings of bird magnetoreception.