Membrane protein megahertz crystallography at the European XFEL
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Published:2019-11-04
Issue:1
Volume:10
Page:
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ISSN:2041-1723
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Container-title:Nature Communications
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language:en
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Short-container-title:Nat Commun
Author:
Gisriel ChrisORCID, Coe Jesse, Letrun RomainORCID, Yefanov Oleksandr M., Luna-Chavez CesarORCID, Stander Natasha E., Lisova Stella, Mariani Valerio, Kuhn Manuela, Aplin Steve, Grant Thomas D.ORCID, Dörner Katerina, Sato Tokushi, Echelmeier AustinORCID, Cruz Villarreal JorvaniORCID, Hunter Mark S., Wiedorn Max O., Knoska Juraj, Mazalova VictoriaORCID, Roy-Chowdhury Shatabdi, Yang Jay-How, Jones Alex, Bean Richard, Bielecki Johan, Kim Yoonhee, Mills Grant, Weinhausen Britta, Meza Jose D., Al-Qudami Nasser, Bajt SašaORCID, Brehm Gerrit, Botha Sabine, Boukhelef Djelloul, Brockhauser SandorORCID, Bruce Barry D.ORCID, Coleman Matthew A., Danilevski Cyril, Discianno Erin, Dobson Zachary, Fangohr HansORCID, Martin-Garcia Jose M., Gevorkov YaroslavORCID, Hauf Steffen, Hosseinizadeh Ahmad, Januschek Friederike, Ketawala Gihan K., Kupitz Christopher, Maia Luis, Manetti Maurizio, Messerschmidt Marc, Michelat ThomasORCID, Mondal JyotirmoyORCID, Ourmazd AbbasORCID, Previtali Gianpietro, Sarrou Iosifina, Schön Silvan, Schwander Peter, Shelby Megan L., Silenzi Alessandro, Sztuk-Dambietz Jolanta, Szuba Janusz, Turcato MonicaORCID, White Thomas A.ORCID, Wrona Krzysztof, Xu Chen, Abdellatif Mohamed H., Zook James D., Spence John C. H., Chapman Henry N.ORCID, Barty Anton, Kirian Richard A., Frank MatthiasORCID, Ros Alexandra, Schmidt MariusORCID, Fromme RaimundORCID, Mancuso Adrian P., Fromme Petra, Zatsepin Nadia A.
Abstract
Abstract
The world’s first superconducting megahertz repetition rate hard X-ray free-electron laser (XFEL), the European XFEL, began operation in 2017, featuring a unique pulse train structure with 886 ns between pulses. With its rapid pulse rate, the European XFEL may alleviate some of the increasing demand for XFEL beamtime, particularly for membrane protein serial femtosecond crystallography (SFX), leveraging orders-of-magnitude faster data collection. Here, we report the first membrane protein megahertz SFX experiment, where we determined a 2.9 Å-resolution SFX structure of the large membrane protein complex, Photosystem I, a > 1 MDa complex containing 36 protein subunits and 381 cofactors. We address challenges to megahertz SFX for membrane protein complexes, including growth of large quantities of crystals and the large molecular and unit cell size that influence data collection and analysis. The results imply that megahertz crystallography could have an important impact on structure determination of large protein complexes with XFELs.
Publisher
Springer Science and Business Media LLC
Subject
General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry
Reference51 articles.
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