Time-resolved serial crystallography captures high-resolution intermediates of photoactive yellow protein

By Jason Tenboer, Shibom Basu1, Nadia Zatsepin1, Kanupriya Pande2, Despina Milathianaki, Matthias Frank3, Mark S. Hunter4, Sébastien Boutet, Garth J. Williams, Jason E. Koglin, Dominik Oberthuer, Michael Heymann, Christopher Kupitz4, Chelsie E Conrad1, Jesse David Coe1, Shatabdi Roy-Chowdhury1, Uwe Weierstall1, Daniel James, Dingjie Wang, Thomas Grant, Anton Barty, Oleksandr Yefanov, Jennifer Scales, Cornelius Gati, Carolin Seuring, Vukica Srajer, Robert Henning, Peter Schwander5, Raimund Fromme, Abbas Ourmazd5, Keith Moffat, Jasper J. Van Thor, John Spence1, Petra Fromme1, Henry Chapman6, Marius Schmidt2

1. Arizona State University 2. University of Wisconsin - Milwaukee 3. Lawrence Livermore National Laboratory 4. SLAC National Accelerator Laboratory 5. University of Wisconsin-Milwaukee 6. Center for Free-Electron Laser Science

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Published on

Type

journal-article

Author

Jason Tenboer and Shibom Basu and Nadia Zatsepin and Kanupriya Pande and Despina Milathianaki and Matthias Frank and Mark Hunter and Sébastien Boutet and Garth J. Williams and Jason E. Koglin and Dominik Oberthuer and Michael Heymann and Christopher Kupitz and Chelsie Conrad and Jesse Coe and Shatabdi Roy-Chowdhury and Uwe Weierstall and Daniel James and Dingjie Wang and Thomas Grant and Anton Barty and Oleksandr Yefanov and Jennifer Scales and Cornelius Gati and Carolin Seuring and Vukica Srajer and Robert Henning and Peter Schwander and Raimund Fromme and Abbas Ourmazd and Keith Moffat and Jasper J. Van Thor and John C. H. Spence and Petra Fromme and Henry N. Chapman and Marius Schmidt

Citation

Tenboer, J. et al., 2014. Time-resolved serial crystallography captures high-resolution intermediates of photoactive yellow protein. Science, 346(6214), pp.1242–1246. Available at: http://dx.doi.org/10.1126/science.1259357.

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Funding

NSF-STC Biology with X-ray Lasers (NSF-1231306)