Retinal isomerization in bacteriorhodopsin captured by a femtosecond x-ray laser

Citation:

Przemyslaw Nogly, Weinert, Tobias , James, Daniel , Carbajo, Sergio , Ozerov, Dmitry , Furrer, Antonia , Gashi, Dardan , Borin, Veniamin , Skopintsev, Petr , Jaeger, Kathrin , Nass, Karol , Båth, Petra , Bosman, Robert , Koglin, Jason , Seaberg, Matthew , Lane, Thomas , Kekilli, Demet , Brünle, Steffen , Tanaka, Tomoyuki , Wu, Wenting , Milne, Christopher , White, Thomas , Barty, Anton , Weierstall, Uwe , Panneels, Valerie , Nango, Eriko , Iwata, So , Hunter, Mark , Schapiro, Igor , Schertler, Gebhard , Neutze, Richard , and Standfuss, Jörg . 2018. “Retinal Isomerization In Bacteriorhodopsin Captured By A Femtosecond X-Ray Laser”. Science. http://science.sciencemag.org/content/early/2018/06/13/science.aat0094.abstract.

Abstract:

Ultrafast isomerization of retinal is the primary step in photoresponsive biological functions including vision in humans and ion-transport across bacterial membranes. We studied the sub-picosecond structural dynamics of retinal isomerization in the light-driven proton pump bacteriorhodopsin using an x-ray laser. A series of structural snapshots with near-atomic spatial and temporal resolution in the femtosecond regime show how the excited all-trans retinal samples conformational states within the protein binding pocket prior to passing through a twisted geometry and emerging in the 13-cis conformation. Our findings suggest ultrafast collective motions of aspartic acid residues and functional water molecules in the proximity of the retinal Schiff base as a key ingredient for this stereo-selective and efficient photochemical reaction.