Our paper explains details of sample optimization for TR-SSX experiments that can be widely applicable to cytoplasmic proteins. The LOV structural dynamics in millisecond timescales provide insights into the initial stage of signal transduction.

Now accepted in IUCrJ https://journals.iucr.org/m/services/forthcoming.html and full version already available as a preprint https://www.biorxiv.org/content/10.1101/2023.11.06.565770v1.

Light-Oxygen-Voltage (LOV) domains are small photosensory flavoprotein modules that allow converting external stimuli (sunlight) into intracellular signals responsible for various cell behavior (e.g., phototropism and chloroplast relocation). This ability relies on the light-induced formation of a covalent thioether adduct between a flavin chromophore and a reactive cysteine from the protein environment, which triggers a cascade of structural changes that results in the activation of a serine/threonine (Ser/Thr) kinase. Recent developments in time-resolved crystallography may allow the observation of the activation cascade of the LOV domain in real-time, which has been elusive.

In this study, we report a robust protocol for the production and stable delivery of microcrystals of the LOV domain of phototropin Phot-1 from Chlamydomonas reinhardtii (CrPhotLOV1) with a high-viscosity injector for time-resolved serial synchrotron crystallography (TR-SSX). The detailed process covers all aspects, from sample optimization to the actual data collection process, which may serve as a guide for soluble protein preparation for TR-SSX. In addition, we show that the obtained crystals preserve the photoreactivity using infrared spectroscopy. Furthermore, the results of the TR-SSX experiment provide high-resolution insights into structural alterations of CrPhotLOV1 from Δt = 2.5 ms up to Δt = 95 ms post-photoactivation, including resolving the geometry of the thioether adduct and the C-terminal region implicated in the signal transduction process.

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