Crystals (Aug 2023)

An Optimized Approach for Serial Crystallography Using Chips

  • Marina Galchenkova,
  • Aida Rahmani Mashhour,
  • Patrick Y. A. Reinke,
  • Sebastian Günther,
  • Jan Meyer,
  • Henry N. Chapman,
  • Oleksandr M. Yefanov

DOI
https://doi.org/10.3390/cryst13081225
Journal volume & issue
Vol. 13, no. 8
p. 1225

Abstract

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Serial crystallography is a rapidly developing method for the determination of the structure of biomolecules at room temperature at near-atomic resolution from an ensemble of small crystals. Numerous advances in detectors, data analysis pipelines, sample delivery methods, and crystallization protocols expand the scope of structural biology to understand the fundamental processes that take place in living cells. Many experimental strategies for serial crystallography are in use, depending on the type and sizes of the crystals or other needs of the experiment. Such strategies should ideally minimize the wastage of samples or beamtime without compromising experimental goals. This paper proposes a way to optimize beamtime utilization in serial crystallography experiments that use fixed-target sample delivery methods, such as chips. The strategy involves two key steps. Firstly, a fast raster scan of the chip is performed to determine the positions of the crystals based on their diffraction. Subsequently, a rotational series is collected at each identified crystal position, covering a narrow range of chip orientations. This approach enables the exclusion of empty positions during data acquisition, resulting in significant savings in beam time utilization and a reduced volume of measured data.

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