Spectral Features of Canthaxanthin in HCP2. A QM/MM Approach

Structural Models of the First Molecular Events in the Heliorhodopsin Photocycle

Retinylidene conformations and rearrangements of the hydrogen-bond network in the vicinity of the protonated Schiff base (PSB) play a key role in the proton transfer process in the Heliorhodopsin photocycle. Photoisomerization of the retinylidene chromophore and the formation of photoproducts corresponding to the early intermediates were modeled using a combination of molecular dynamics simulations and quantum mechanical/molecular mechanics calculations. The resulting structures were refined, and the respective excitation energies were calculated. Aided by metadynamics simulations, we constructed a photoisomerized intermediate where the 13-cis retinylidene chromophore is rotated about a parallel pair of double bonds at C13=C14 and C15=NZ double bonds. We demonstrate how the deprotonation of the Schiff base and the concomitant protonation of the Glu107 counterion are only favored because of these rearrangements.

Microsolvation Effects in the Spectral Tuning of Heliorhodopsin

Heliorhodopsins (HeR) are a new category of heptahelical transmembrane photoactive proteins with a covalently linked all-trans retinal. The protonated Schiff base (PSB) nitrogen in the retinal is stabilized by a negatively charged counterion. It is well-known that stronger or weaker electrostatic interactions with the counterion cause a significant spectral blue- or red-shift, respectively, in both microbial and animal rhodopsins. In HeR, however, while Glu107 acts as the counterion, mutations of this residue are not directly correlated with a spectral shift. A molecular dynamics analysis revealed that a water cluster pocket produces a microsolvation effect on the Schiff base, compensating to various extents the replacement of the native counterion. Using a combination of molecular dynamics and quantum mechanical/molecular mechanics (QM/MM), we study this microsolvation effect on the electronic absorption of the retinylidene Schiff base chromophore of HeR.