IUCrJ (Nov 2023)

Kilohertz serial crystallography with the JUNGFRAU detector at a fourth-generation synchrotron source

  • Filip Leonarski,
  • Jie Nan,
  • Zdenek Matej,
  • Quentin Bertrand,
  • Antonia Furrer,
  • Ishkhan Gorgisyan,
  • Monika Bjelčić,
  • Michal Kepa,
  • Hannah Glover,
  • Viktoria Hinger,
  • Thomas Eriksson,
  • Aleksander Cehovin,
  • Mikel Eguiraun,
  • Piero Gasparotto,
  • Aldo Mozzanica,
  • Tobias Weinert,
  • Ana Gonzalez,
  • Jörg Standfuss,
  • Meitian Wang,
  • Thomas Ursby,
  • Florian Dworkowski

DOI
https://doi.org/10.1107/S2052252523008618
Journal volume & issue
Vol. 10, no. 6
pp. 729 – 737

Abstract

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Serial and time-resolved macromolecular crystallography are on the rise. However, beam time at X-ray free-electron lasers is limited and most third-generation synchrotron-based macromolecular crystallography beamlines do not offer the necessary infrastructure yet. Here, a new setup is demonstrated, based on the JUNGFRAU detector and Jungfraujoch data-acquisition system, that enables collection of kilohertz serial crystallography data at fourth-generation synchrotrons. More importantly, it is shown that this setup is capable of collecting multiple-time-point time-resolved protein dynamics at kilohertz rates, allowing the probing of microsecond to second dynamics at synchrotrons in a fraction of the time needed previously. A high-quality complete X-ray dataset was obtained within 1 min from lysozyme microcrystals, and the dynamics of the light-driven sodium-pump membrane protein KR2 with a time resolution of 1 ms could be demonstrated. To make the setup more accessible for researchers, downstream data handling and analysis will be automated to allow on-the-fly spot finding and indexing, as well as data processing.

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