Magnetic field effects on radical pair reactions: estimation of B 1/2 for flavin-tryptophan radical pairs in cryptochromes.
Siu Ying WongPhilip BenjaminP J HorePublished in: Physical chemistry chemical physics : PCCP (2023)
Magnetic field effects on the yields of radical pair reactions are often characterised by the "half-field" parameter, B 1/2 , which encodes useful information on spin relaxation, radical recombination kinetics and electron-electron couplings as well as electron-nuclear hyperfine interactions. Here we use a variety of spin dynamics simulation methods to estimate the hyperfine-only values of B 1/2 for the flavin-tryptophan radical pair, [FAD˙ - TrpH˙ + ], thought to be the detector in the magnetic compass sense of migratory songbirds. The main findings are: (a) in the absence of fast recombination and spin relaxation, [FAD˙ - TrpH˙ + ] radical pairs in solution and in the putative magnetoreceptor protein, cryptochrome, have B 1/2 ≈ 1.89 mT and 2.46 mT, respectively. (b) The widely used expression for B 1/2 due to Weller et al. ( Chem. Phys. Lett , 1983, 96 , 24-27) is only applicable to small, short-lived (∼5 ns), rapidly tumbling radical pairs in solution, and is quantitatively unreliable in the context of magnetoreception. (c) In the absence of molecular tumbling, the low-field effect for [FAD˙ - TrpH˙ + ] is predicted to be abolished by the anisotropic components of the hyperfine interactions. Armed with the 2.46 mT "base value" for cryptochrome, measurements of B 1/2 can be used to understand the impact of spin relaxation on its performance as a magnetic compass sensor.