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Goniometer-based femtosecond crystallography with X-ray free electron lasers
- Cohen, Aina E;
- Soltis, S Michael;
- González, Ana;
- Aguila, Laura;
- Alonso-Mori, Roberto;
- Barnes, Christopher O;
- Baxter, Elizabeth L;
- Brehmer, Winnie;
- Brewster, Aaron S;
- Brunger, Axel T;
- Calero, Guillermo;
- Chang, Joseph F;
- Chollet, Matthieu;
- Ehrensberger, Paul;
- Eriksson, Thomas L;
- Feng, Yiping;
- Hattne, Johan;
- Hedman, Britt;
- Hollenbeck, Michael;
- Holton, James M;
- Keable, Stephen;
- Kobilka, Brian K;
- Kovaleva, Elena G;
- Kruse, Andrew C;
- Lemke, Henrik T;
- Lin, Guowu;
- Lyubimov, Artem Y;
- Manglik, Aashish;
- Mathews, Irimpan I;
- McPhillips, Scott E;
- Nelson, Silke;
- Peters, John W;
- Sauter, Nicholas K;
- Smith, Clyde A;
- Song, Jinhu;
- Stevenson, Hilary P;
- Tsai, Yingssu;
- Uervirojnangkoorn, Monarin;
- Vinetsky, Vladimir;
- Wakatsuki, Soichi;
- Weis, William I;
- Zadvornyy, Oleg A;
- Zeldin, Oliver B;
- Zhu, Diling;
- Hodgson, Keith O
- et al.
Published Web Location
https://doi.org/10.1073/pnas.1418733111Abstract
The emerging method of femtosecond crystallography (FX) may extend the diffraction resolution accessible from small radiation-sensitive crystals and provides a means to determine catalytically accurate structures of acutely radiation-sensitive metalloenzymes. Automated goniometer-based instrumentation developed for use at the Linac Coherent Light Source enabled efficient and flexible FX experiments to be performed on a variety of sample types. In the case of rod-shaped Cpl hydrogenase crystals, only five crystals and about 30 min of beam time were used to obtain the 125 still diffraction patterns used to produce a 1.6-Å resolution electron density map. For smaller crystals, high-density grids were used to increase sample throughput; 930 myoglobin crystals mounted at random orientation inside 32 grids were exposed, demonstrating the utility of this approach. Screening results from cryocooled crystals of β2-adrenoreceptor and an RNA polymerase II complex indicate the potential to extend the diffraction resolution obtainable from very radiation-sensitive samples beyond that possible with undulator-based synchrotron sources.
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