Microsecond time-resolved X-ray scattering by utilizing MHz repetition rate at second-generation XFELs

Konold, Patrick E.; Monrroy, Leonardo; Bellisario, Alfredo; Filipe, Diogo; Adams, Patrick; Alvarez, Roberto; Bean, Richard; Bielecki, Johan; Bódizs, Szabolcs; Ducrocq, Gabriel; Grubmueller, Helmut; Kirian, Richard A.; Kloos, Marco; Koliyadu, Jayanath C. P.; Koua, Faisal H. M.; Larkiala, Taru; Letrun, Romain; Lindsten, Fredrik; Maihöfer, Michael; Martin, Andrew V.; Mészáros, Petra; Mutisya, Jennifer; Nimmrich, Amke; Okamoto, Kenta; Round, Adam; Sato, Tokushi; Valerio, Joana; Westphal, Daniel; Wollter, August; Yenupuri, Tej Varma; You, Tong; Maia, Filipe; Westenhoff, Sebastian

Microsecond time-resolved X-ray scattering by utilizing MHz repetition rate at second-generation XFELs

2024

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Abstract

Detecting microsecond structural perturbations in biomolecules has wide relevance in biology, chemistry and medicine. Here we show how MHz repetition rates at X-ray free-electron lasers can be used to produce microsecond time-series of protein scattering with exceptionally low noise levels of 0.001%. We demonstrate the approach by examining Jɑ helix unfolding of a light-oxygen-voltage photosensory domain. This time-resolved acquisition strategy is easy to implement and widely applicable for direct observation of structural dynamics of many biochemical processes.