Serial millisecond crystallography of membrane and soluble protein microcrystals using synchrotron radiation

Author:

Martin-Garcia Jose M.ORCID,Conrad Chelsie E.,Nelson Garrett,Stander Natasha,Zatsepin Nadia A.,Zook James,Zhu Lan,Geiger James,Chun Eugene,Kissick David,Hilgart Mark C.,Ogata Craig,Ishchenko Andrii,Nagaratnam Nirupa,Roy-Chowdhury Shatabdi,Coe Jesse,Subramanian Ganesh,Schaffer Alexander,James DanielORCID,Ketwala Gihan,Venugopalan Nagarajan,Xu Shenglan,Corcoran Stephen,Ferguson Dale,Weierstall Uwe,Spence John C. H.,Cherezov Vadim,Fromme Petra,Fischetti Robert F.,Liu Wei

Abstract

Crystal structure determination of biological macromolecules using the novel technique of serial femtosecond crystallography (SFX) is severely limited by the scarcity of X-ray free-electron laser (XFEL) sources. However, recent and future upgrades render microfocus beamlines at synchrotron-radiation sources suitable for room-temperature serial crystallography data collection also. Owing to the longer exposure times that are needed at synchrotrons, serial data collection is termed serial millisecond crystallography (SMX). As a result, the number of SMX experiments is growing rapidly, with a dozen experiments reported so far. Here, the first high-viscosity injector-based SMX experiments carried out at a US synchrotron source, the Advanced Photon Source (APS), are reported. Microcrystals (5–20 µm) of a wide variety of proteins, including lysozyme, thaumatin, phycocyanin, the human A2Aadenosine receptor (A2AAR), the soluble fragment of the membrane lipoprotein Flpp3 and proteinase K, were screened. Crystals suspended in lipidic cubic phase (LCP) or a high-molecular-weight poly(ethylene oxide) (PEO; molecular weight 8 000 000) were delivered to the beam using a high-viscosity injector. In-house data-reduction (hit-finding) software developed at APS as well as the SFX data-reduction and analysis software suitesCheetahandCrystFELenabled efficient on-site SMX data monitoring, reduction and processing. Complete data sets were collected for A2AAR, phycocyanin, Flpp3, proteinase K and lysozyme, and the structures of A2AAR, phycocyanin, proteinase K and lysozyme were determined at 3.2, 3.1, 2.65 and 2.05 Å resolution, respectively. The data demonstrate the feasibility of serial millisecond crystallography from 5–20 µm crystals using a high-viscosity injector at APS. The resolution of the crystal structures obtained in this study was dictated by the current flux density and crystal size, but upcoming developments in beamline optics and the planned APS-U upgrade will increase the intensity by two orders of magnitude. These developments will enable structure determination from smaller and/or weakly diffracting microcrystals.

Funder

Flinn Foundation

The STC Program of the National Science Foundation through BioXFEL

National Science Foundation BIO ABI grant

National Institutes of Health

National Cancer Institute

National Institute of General Medical Sciences

Publisher

International Union of Crystallography (IUCr)

Subject

Condensed Matter Physics,General Materials Science,Biochemistry,General Chemistry

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