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Literature DB >> 29903883

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

Przemyslaw Nogly¹, Tobias Weinert^1,2, Daniel James¹, Sergio Carbajo³, Dmitry Ozerov⁴, Antonia Furrer¹, Dardan Gashi⁵, Veniamin Borin⁶, Petr Skopintsev¹, Kathrin Jaeger¹, Karol Nass^5,2, Petra Båth⁷, Robert Bosman⁷, Jason Koglin³, Matthew Seaberg³, Thomas Lane³, Demet Kekilli¹, Steffen Brünle¹, Tomoyuki Tanaka^8,9, Wenting Wu¹, Christopher Milne⁵, Thomas White¹⁰, Anton Barty¹⁰, Uwe Weierstall¹¹, Valerie Panneels¹, Eriko Nango^8,9, So Iwata^8,9, Mark Hunter³, Igor Schapiro⁶, Gebhard Schertler^1,12, Richard Neutze⁷, Jörg Standfuss¹³.

Abstract

Ultrafast isomerization of retinal is the primary step in photoresponsive biological functions including vision in humans and ion transport across bacterial membranes. We used an x-ray laser to study the subpicosecond structural dynamics of retinal isomerization in the light-driven proton pump bacteriorhodopsin. A series of structural snapshots with near-atomic spatial resolution and temporal resolution in the femtosecond regime show how the excited all-trans retinal samples conformational states within the protein binding pocket before 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 facet of this stereoselective and efficient photochemical reaction.

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Year: 2018 PMID： 29903883 DOI： 10.1126/science.aat0094

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

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