Authors
Kovalev K, Stetsenko A, Trunk F, Marin E, Haro-Moreno JM, Lamm GHU, Alekseev A, Rodriguez-Valera F, Schneider TR, Wachtveitl J, Guskov A
Journal
BioRxiv
Citation
bioRxiv 2025.04.29.651185.
Abstract
Rhodopsins are light-sensitive membrane proteins capturing solar energy via a retinal cofactor covalently attached to a lysine residue. Several groups of rhodopsins were reported to lack the conserved lysine and showed no retinal binding. Recently, flotillin-associated rhodopsins (FArhodopsins) were identified and suggested to lack the typical retinal binding pocket despite preserving the lysine residue in many members of the group. Here we present cryo-EM structures of paralog FArhodopsin and proteorhodopsin from marine bacteria Pseudothioglobus. The structures revealed pentameric assemblies of both proteins similar to those of other microbial rhodopsins. We demonstrate no binding of retinal to the FArhodopsin despite preservation of the lysine residue and overall similarity of the protein fold and internal organization to those of the retinal-binding paralog. Mutational analysis confirmed that two amino acids, H84 and E120, prevent retinal binding within the FArhodopsin. Thus, our work provides insights into the natural retinal loss in microbial rhodopsins and might contribute to the further understanding of the FArhodopsin clade.
