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Millisecond time-resolved serial oscillation crystallography of a blue-light photoreceptor at a synchrotron

Sylvain Aumonier, Gianluca Santoni, Guillaume Gotthard, David von Stetten, Gordon A. Leonard, Antoine Royant

2020IUCrJ21 citationsDOIOpen Access PDF

Abstract

The recent development of serial crystallography has popularized time-resolved crystallography as a technique to determine the structure of protein-reaction intermediate states. However, most approaches rely on the availability of thousands to millions of microcrystals. A method is reported here, using monochromatic synchrotron radiation, for the room-temperature collection, processing and merging of X-ray oscillation diffraction data from <100 samples in order to observe the build up of a photoreaction intermediate species. Using this method, we monitored with a time resolution of 63 ms how the population of a blue-light photoreceptor domain in a crystal progressively photoconverts from the dark to the light state. The series of resulting snapshots allows us to visualize in detail the gradual rearrangement of both the protein and chromophore during this process.

Topics & Concepts

MillisecondMonochromatic colorSynchrotron radiationSynchrotronDiffractionChromophoreOscillation (cell signaling)X-ray crystallographyCrystallographyChemistryMaterials scienceOpticsPhysicsPhotochemistryBiochemistryAstronomyPhotosynthetic Processes and MechanismsEnzyme Structure and FunctionLight effects on plants
Millisecond time-resolved serial oscillation crystallography of a blue-light photoreceptor at a synchrotron | Litcius