Your search keyword '"White, Thomas A."' showing total 26 results

1. Atomic structure of granulin determined from native nanocrystalline granulovirus using an X-ray free-electron laser.

Author

Gati C, Oberthuer D, Yefanov O, Bunker RD, Stellato F, Chiu E, Yeh SM, Aquila A, Basu S, Bean R, Beyerlein KR, Botha S, Boutet S, DePonte DP, Doak RB, Fromme R, Galli L, Grotjohann I, James DR, Kupitz C, Lomb L, Messerschmidt M, Nass K, Rendek K, Shoeman RL, Wang D, Weierstall U, White TA, Williams GJ, Zatsepin NA, Fromme P, Spence JC, Goldie KN, Jehle JA, Metcalf P, Barty A, and Chapman HN

Subjects

Crystallography instrumentation, Granulovirus chemistry, Models, Molecular, Progranulins, Protein Structure, Secondary, Synchrotrons, Crystallography methods, Electrons, Granulovirus ultrastructure, Intercellular Signaling Peptides and Proteins chemistry, Lasers

Abstract

To understand how molecules function in biological systems, new methods are required to obtain atomic resolution structures from biological material under physiological conditions. Intense femtosecond-duration pulses from X-ray free-electron lasers (XFELs) can outrun most damage processes, vastly increasing the tolerable dose before the specimen is destroyed. This in turn allows structure determination from crystals much smaller and more radiation sensitive than previously considered possible, allowing data collection from room temperature structures and avoiding structural changes due to cooling. Regardless, high-resolution structures obtained from XFEL data mostly use crystals far larger than 1 μm 3 in volume, whereas the X-ray beam is often attenuated to protect the detector from damage caused by intense Bragg spots. Here, we describe the 2 Å resolution structure of native nanocrystalline granulovirus occlusion bodies (OBs) that are less than 0.016 μm 3 in volume using the full power of the Linac Coherent Light Source (LCLS) and a dose up to 1.3 GGy per crystal. The crystalline shell of granulovirus OBs consists, on average, of about 9,000 unit cells, representing the smallest protein crystals to yield a high-resolution structure by X-ray crystallography to date. The XFEL structure shows little to no evidence of radiation damage and is more complete than a model determined using synchrotron data from recombinantly produced, much larger, cryocooled granulovirus granulin microcrystals. Our measurements suggest that it should be possible, under ideal experimental conditions, to obtain data from protein crystals with only 100 unit cells in volume using currently available XFELs and suggest that single-molecule imaging of individual biomolecules could almost be within reach.

Published

2017

2. Serial femtosecond crystallography datasets from G protein-coupled receptors.

Author

White TA, Barty A, Liu W, Ishchenko A, Zhang H, Gati C, Zatsepin NA, Basu S, Oberthür D, Metz M, Beyerlein KR, Yoon CH, Yefanov OM, James D, Wang D, Messerschmidt M, Koglin JE, Boutet S, Weierstall U, and Cherezov V

Subjects

Humans, Lipids chemistry, Software, X-Ray Diffraction, Crystallography, Lasers

Abstract

We describe the deposition of four datasets consisting of X-ray diffraction images acquired using serial femtosecond crystallography experiments on microcrystals of human G protein-coupled receptors, grown and delivered in lipidic cubic phase, at the Linac Coherent Light Source. The receptors are: the human serotonin receptor 2B in complex with an agonist ergotamine, the human δ-opioid receptor in complex with a bi-functional peptide ligand DIPP-NH2, the human smoothened receptor in complex with an antagonist cyclopamine, and finally the human angiotensin II type 1 receptor in complex with the selective antagonist ZD7155. All four datasets have been deposited, with minimal processing, in an HDF5-based file format, which can be used directly for crystallographic processing with CrystFEL or other software. We have provided processing scripts and supporting files for recent versions of CrystFEL, which can be used to validate the data.

Published

2016

3. Lipidic cubic phase injector facilitates membrane protein serial femtosecond crystallography.

Author

Weierstall U, James D, Wang C, White TA, Wang D, Liu W, Spence JC, Bruce Doak R, Nelson G, Fromme P, Fromme R, Grotjohann I, Kupitz C, Zatsepin NA, Liu H, Basu S, Wacker D, Han GW, Katritch V, Boutet S, Messerschmidt M, Williams GJ, Koglin JE, Marvin Seibert M, Klinker M, Gati C, Shoeman RL, Barty A, Chapman HN, Kirian RA, Beyerlein KR, Stevens RC, Li D, Shah ST, Howe N, Caffrey M, and Cherezov V

Subjects

Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Crystallography methods, Lipids chemistry, Membrane Proteins chemistry

Abstract

Lipidic cubic phase (LCP) crystallization has proven successful for high-resolution structure determination of challenging membrane proteins. Here we present a technique for extruding gel-like LCP with embedded membrane protein microcrystals, providing a continuously renewed source of material for serial femtosecond crystallography. Data collected from sub-10-μm-sized crystals produced with less than 0.5 mg of purified protein yield structural insights regarding cyclopamine binding to the Smoothened receptor.

Published

2014

4. In vivo protein crystallization opens new routes in structural biology.

Author

Koopmann R, Cupelli K, Redecke L, Nass K, Deponte DP, White TA, Stellato F, Rehders D, Liang M, Andreasson J, Aquila A, Bajt S, Barthelmess M, Barty A, Bogan MJ, Bostedt C, Boutet S, Bozek JD, Caleman C, Coppola N, Davidsson J, Doak RB, Ekeberg T, Epp SW, Erk B, Fleckenstein H, Foucar L, Graafsma H, Gumprecht L, Hajdu J, Hampton CY, Hartmann A, Hartmann R, Hauser G, Hirsemann H, Holl P, Hunter MS, Kassemeyer S, Kirian RA, Lomb L, Maia FR, Kimmel N, Martin AV, Messerschmidt M, Reich C, Rolles D, Rudek B, Rudenko A, Schlichting I, Schulz J, Seibert MM, Shoeman RL, Sierra RG, Soltau H, Stern S, Strüder L, Timneanu N, Ullrich J, Wang X, Weidenspointner G, Weierstall U, Williams GJ, Wunderer CB, Fromme P, Spence JC, Stehle T, Chapman HN, Betzel C, and Duszenko M

Subjects

Protein Binding radiation effects, Protein Conformation radiation effects, Proteins radiation effects, Solubility radiation effects, X-Rays, Crystallography methods, Crystallography, X-Ray methods, Proteins chemistry, Proteins ultrastructure

Abstract

Protein crystallization in cells has been observed several times in nature. However, owing to their small size these crystals have not yet been used for X-ray crystallographic analysis. We prepared nano-sized in vivo-grown crystals of Trypanosoma brucei enzymes and applied the emerging method of free-electron laser-based serial femtosecond crystallography to record interpretable diffraction data. This combined approach will open new opportunities in structural systems biology.

Published

2012

5. Time-resolved serial femtosecond crystallography at the European XFEL

Author

Pandey, Suraj, Bean, Richard, Sato, Tokushi, Poudyal, Ishwor, Bielecki, Johan, Cruz Villarreal, Jorvani, Yefanov, Oleksandr, Mariani, Valerio, White, Thomas A, Kupitz, Christopher, Hunter, Mark, Abdellatif, Mohamed H, Bajt, Saša, Bondar, Valerii, Echelmeier, Austin, Doppler, Diandra, Emons, Moritz, Frank, Matthias, Fromme, Raimund, Gevorkov, Yaroslav, Giovanetti, Gabriele, Jiang, Man, Kim, Daihyun, Kim, Yoonhee, Kirkwood, Henry, Klimovskaia, Anna, Knoska, Juraj, Koua, Faisal HM, Letrun, Romain, Lisova, Stella, Maia, Luis, Mazalova, Victoria, Meza, Domingo, Michelat, Thomas, Ourmazd, Abbas, Palmer, Guido, Ramilli, Marco, Schubert, Robin, Schwander, Peter, Silenzi, Alessandro, Sztuk-Dambietz, Jolanta, Tolstikova, Alexandra, Chapman, Henry N, Ros, Alexandra, Barty, Anton, Fromme, Petra, Mancuso, Adrian P, and Schmidt, Marius

Subjects

Biochemistry and Cell Biology, Biological Sciences, Bacterial Proteins, Crystallography, X-Ray, Light, Models, Molecular, Photoreceptors, Microbial, Protein Conformation, Time Factors, Technology, Medical and Health Sciences, Developmental Biology, Biological sciences

Abstract

The European XFEL (EuXFEL) is a 3.4-km long X-ray source, which produces femtosecond, ultrabrilliant and spatially coherent X-ray pulses at megahertz (MHz) repetition rates. This X-ray source has been designed to enable the observation of ultrafast processes with near-atomic spatial resolution. Time-resolved crystallographic investigations on biological macromolecules belong to an important class of experiments that explore fundamental and functional structural displacements in these molecules. Due to the unusual MHz X-ray pulse structure at the EuXFEL, these experiments are challenging. Here, we demonstrate how a biological reaction can be followed on ultrafast timescales at the EuXFEL. We investigate the picosecond time range in the photocycle of photoactive yellow protein (PYP) with MHz X-ray pulse rates. We show that difference electron density maps of excellent quality can be obtained. The results connect the previously explored femtosecond PYP dynamics to timescales accessible at synchrotrons. This opens the door to a wide range of time-resolved studies at the EuXFEL.

Published

2020

6. Coherent diffractive imaging of microtubules using an X-ray laser.

Author

Brändén, Gisela, Hammarin, Greger, Harimoorthy, Rajiv, Johansson, Alexander, Arnlund, David, Malmerberg, Erik, Barty, Anton, Tångefjord, Stefan, Berntsen, Peter, DePonte, Daniel P, Seuring, Carolin, White, Thomas A, Stellato, Francesco, Bean, Richard, Beyerlein, Kenneth R, Chavas, Leonard MG, Fleckenstein, Holger, Gati, Cornelius, Ghoshdastider, Umesh, Gumprecht, Lars, Oberthür, Dominik, Popp, David, Seibert, Marvin, Tilp, Thomas, Messerschmidt, Marc, Williams, Garth J, Loh, N Duane, Chapman, Henry N, Zwart, Peter, Liang, Mengning, Boutet, Sébastien, Robinson, Robert C, and Neutze, Richard

Subjects

Microtubules, Tubulin, Crystallography, X-Ray, Lasers, Algorithms, Electrons, Synchrotrons, X-Rays, Scattering, Radiation, Image Processing, Computer-Assisted, Molecular Imaging, Crystallography, X-Ray, Scattering, Radiation, Image Processing, Computer-Assisted, Generic Health Relevance, MD Multidisciplinary

Abstract

X-ray free electron lasers (XFELs) create new possibilities for structural studies of biological objects that extend beyond what is possible with synchrotron radiation. Serial femtosecond crystallography has allowed high-resolution structures to be determined from micro-meter sized crystals, whereas single particle coherent X-ray imaging requires development to extend the resolution beyond a few tens of nanometers. Here we describe an intermediate approach: the XFEL imaging of biological assemblies with helical symmetry. We collected X-ray scattering images from samples of microtubules injected across an XFEL beam using a liquid microjet, sorted these images into class averages, merged these data into a diffraction pattern extending to 2 nm resolution, and reconstructed these data into a projection image of the microtubule. Details such as the 4 nm tubulin monomer became visible in this reconstruction. These results illustrate the potential of single-molecule X-ray imaging of biological assembles with helical symmetry at room temperature.

Published

2019

7. Membrane protein megahertz crystallography at the European XFEL

Author

Gisriel, Chris, Coe, Jesse, Letrun, Romain, Yefanov, Oleksandr M, Luna-Chavez, Cesar, Stander, Natasha E, Lisova, Stella, Mariani, Valerio, Kuhn, Manuela, Aplin, Steve, Grant, Thomas D, Dörner, Katerina, Sato, Tokushi, Echelmeier, Austin, Cruz Villarreal, Jorvani, Hunter, Mark S, Wiedorn, Max O, Knoska, Juraj, Mazalova, Victoria, 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, Saša, Brehm, Gerrit, Botha, Sabine, Boukhelef, Djelloul, Brockhauser, Sandor, Bruce, Barry D, Coleman, Matthew A, Danilevski, Cyril, Discianno, Erin, Dobson, Zachary, Fangohr, Hans, Martin-Garcia, Jose M, Gevorkov, Yaroslav, Hauf, Steffen, Hosseinizadeh, Ahmad, Januschek, Friederike, Ketawala, Gihan K, Kupitz, Christopher, Maia, Luis, Manetti, Maurizio, Messerschmidt, Marc, Michelat, Thomas, Mondal, Jyotirmoy, Ourmazd, Abbas, Previtali, Gianpietro, Sarrou, Iosifina, Schön, Silvan, Schwander, Peter, Shelby, Megan L, Silenzi, Alessandro, Sztuk-Dambietz, Jolanta, Szuba, Janusz, Turcato, Monica, White, Thomas A, Wrona, Krzysztof, Xu, Chen, Abdellatif, Mohamed H, Zook, James D, Spence, John CH, Chapman, Henry N, Barty, Anton, Kirian, Richard A, Frank, Matthias, Ros, Alexandra, Schmidt, Marius, Fromme, Raimund, Mancuso, Adrian P, Fromme, Petra, and Zatsepin, Nadia A

Subjects

Biochemistry and Cell Biology, Biological Sciences, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Crystallography, Cyanobacteria, Electrons, Lasers, Membrane Proteins, Models, Molecular, Photosystem I Protein Complex, Static Electricity, Synchrotrons, Thermosynechococcus, X-Rays

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.

Published

2019

8. Enzyme intermediates captured “on the fly” by mix-and-inject serial crystallography

Author

Olmos, Jose L, Pandey, Suraj, Martin-Garcia, Jose M, Calvey, George, Katz, Andrea, Knoska, Juraj, Kupitz, Christopher, Hunter, Mark S, Liang, Mengning, Oberthuer, Dominik, Yefanov, Oleksandr, Wiedorn, Max, Heyman, Michael, Holl, Mark, Pande, Kanupriya, Barty, Anton, Miller, Mitchell D, Stern, Stephan, Roy-Chowdhury, Shatabdi, Coe, Jesse, Nagaratnam, Nirupa, Zook, James, Verburgt, Jacob, Norwood, Tyler, Poudyal, Ishwor, Xu, David, Koglin, Jason, Seaberg, Matthew H, Zhao, Yun, Bajt, Saša, Grant, Thomas, Mariani, Valerio, Nelson, Garrett, Subramanian, Ganesh, Bae, Euiyoung, Fromme, Raimund, Fung, Russell, Schwander, Peter, Frank, Matthias, White, Thomas A, Weierstall, Uwe, Zatsepin, Nadia, Spence, John, Fromme, Petra, Chapman, Henry N, Pollack, Lois, Tremblay, Lee, Ourmazd, Abbas, Phillips, George N, and Schmidt, Marius

Subjects

Biochemistry and Cell Biology, Biological Sciences, Rare Diseases, Infectious Diseases, Good Health and Well Being, Anti-Bacterial Agents, Bacterial Proteins, Biocatalysis, Ceftriaxone, Cephalosporin Resistance, Crystallography, X-Ray, Kinetics, Lasers, Models, Molecular, Mycobacterium tuberculosis, Time Factors, beta-Lactamases, Developmental Biology

Abstract

BackgroundEver since the first atomic structure of an enzyme was solved, the discovery of the mechanism and dynamics of reactions catalyzed by biomolecules has been the key goal for the understanding of the molecular processes that drive life on earth. Despite a large number of successful methods for trapping reaction intermediates, the direct observation of an ongoing reaction has been possible only in rare and exceptional cases.ResultsHere, we demonstrate a general method for capturing enzyme catalysis "in action" by mix-and-inject serial crystallography (MISC). Specifically, we follow the catalytic reaction of the Mycobacterium tuberculosis β-lactamase with the third-generation antibiotic ceftriaxone by time-resolved serial femtosecond crystallography. The results reveal, in near atomic detail, antibiotic cleavage and inactivation from 30 ms to 2 s.ConclusionsMISC is a versatile and generally applicable method to investigate reactions of biological macromolecules, some of which are of immense biological significance and might be, in addition, important targets for structure-based drug design. With megahertz X-ray pulse rates expected at the Linac Coherent Light Source II and the European X-ray free-electron laser, multiple, finely spaced time delays can be collected rapidly, allowing a comprehensive description of biomolecular reactions in terms of structure and kinetics from the same set of X-ray data.

Published

2018

9. Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein

Author

Pande, Kanupriya, Hutchison, Christopher DM, Groenhof, Gerrit, Aquila, Andy, Robinson, Josef S, Tenboer, Jason, Basu, Shibom, Boutet, Sébastien, DePonte, Daniel P, Liang, Mengning, White, Thomas A, Zatsepin, Nadia A, Yefanov, Oleksandr, Morozov, Dmitry, Oberthuer, Dominik, Gati, Cornelius, Subramanian, Ganesh, James, Daniel, Zhao, Yun, Koralek, Jake, Brayshaw, Jennifer, Kupitz, Christopher, Conrad, Chelsie, Roy-Chowdhury, Shatabdi, Coe, Jesse D, Metz, Markus, Xavier, Paulraj Lourdu, Grant, Thomas D, Koglin, Jason E, Ketawala, Gihan, Fromme, Raimund, Šrajer, Vukica, Henning, Robert, Spence, John CH, Ourmazd, Abbas, Schwander, Peter, Weierstall, Uwe, Frank, Matthias, Fromme, Petra, Barty, Anton, Chapman, Henry N, Moffat, Keith, van Thor, Jasper J, and Schmidt, Marius

Subjects

Biological Sciences, Chemical Sciences, Theoretical and Computational Chemistry, Bacterial Proteins, Crystallography, Isomerism, Light, Photochemical Processes, Photons, Photoreceptors, Microbial, Protein Conformation, Time Factors, General Science & Technology

Abstract

A variety of organisms have evolved mechanisms to detect and respond to light, in which the response is mediated by protein structural changes after photon absorption. The initial step is often the photoisomerization of a conjugated chromophore. Isomerization occurs on ultrafast time scales and is substantially influenced by the chromophore environment. Here we identify structural changes associated with the earliest steps in the trans-to-cis isomerization of the chromophore in photoactive yellow protein. Femtosecond hard x-ray pulses emitted by the Linac Coherent Light Source were used to conduct time-resolved serial femtosecond crystallography on photoactive yellow protein microcrystals over a time range from 100 femtoseconds to 3 picoseconds to determine the structural dynamics of the photoisomerization reaction.

Published

2016

10. Lipidic cubic phase injector is a viable crystal delivery system for time-resolved serial crystallography

Author

Nogly, Przemyslaw, Panneels, Valerie, Nelson, Garrett, Gati, Cornelius, Kimura, Tetsunari, Milne, Christopher, Milathianaki, Despina, Kubo, Minoru, Wu, Wenting, Conrad, Chelsie, Coe, Jesse, Bean, Richard, Zhao, Yun, Båth, Petra, Dods, Robert, Harimoorthy, Rajiv, Beyerlein, Kenneth R, Rheinberger, Jan, James, Daniel, DePonte, Daniel, Li, Chufeng, Sala, Leonardo, Williams, Garth J, Hunter, Mark S, Koglin, Jason E, Berntsen, Peter, Nango, Eriko, Iwata, So, Chapman, Henry N, Fromme, Petra, Frank, Matthias, Abela, Rafael, Boutet, Sébastien, Barty, Anton, White, Thomas A, Weierstall, Uwe, Spence, John, Neutze, Richard, Schertler, Gebhard, and Standfuss, Jörg

Subjects

Chemical Sciences, Physical Chemistry, Bioengineering, Nanotechnology, Bacteriorhodopsins, Crystallography, X-Ray, Feasibility Studies, Lasers, Lipids, Protein Conformation, Synchrotrons, Time Factors, Viscosity, X-Ray Absorption Spectroscopy

Abstract

Serial femtosecond crystallography (SFX) using X-ray free-electron laser sources is an emerging method with considerable potential for time-resolved pump-probe experiments. Here we present a lipidic cubic phase SFX structure of the light-driven proton pump bacteriorhodopsin (bR) to 2.3 Å resolution and a method to investigate protein dynamics with modest sample requirement. Time-resolved SFX (TR-SFX) with a pump-probe delay of 1 ms yields difference Fourier maps compatible with the dark to M state transition of bR. Importantly, the method is very sample efficient and reduces sample consumption to about 1 mg per collected time point. Accumulation of M intermediate within the crystal lattice is confirmed by time-resolved visible absorption spectroscopy. This study provides an important step towards characterizing the complete photocycle dynamics of retinal proteins and demonstrates the feasibility of a sample efficient viscous medium jet for TR-SFX.

Published

2016

11. Crystal structure of rhodopsin bound to arrestin by femtosecond X-ray laser

Author

Kang, Yanyong, Zhou, X Edward, Gao, Xiang, He, Yuanzheng, Liu, Wei, Ishchenko, Andrii, Barty, Anton, White, Thomas A, Yefanov, Oleksandr, Han, Gye Won, Xu, Qingping, de Waal, Parker W, Ke, Jiyuan, Tan, MH Eileen, Zhang, Chenghai, Moeller, Arne, West, Graham M, Pascal, Bruce D, Van Eps, Ned, Caro, Lydia N, Vishnivetskiy, Sergey A, Lee, Regina J, Suino-Powell, Kelly M, Gu, Xin, Pal, Kuntal, Ma, Jinming, Zhi, Xiaoyong, Boutet, Sébastien, Williams, Garth J, Messerschmidt, Marc, Gati, Cornelius, Zatsepin, Nadia A, Wang, Dingjie, James, Daniel, Basu, Shibom, Roy-Chowdhury, Shatabdi, Conrad, Chelsie E, Coe, Jesse, Liu, Haiguang, Lisova, Stella, Kupitz, Christopher, Grotjohann, Ingo, Fromme, Raimund, Jiang, Yi, Tan, Minjia, Yang, Huaiyu, Li, Jun, Wang, Meitian, Zheng, Zhong, Li, Dianfan, Howe, Nicole, Zhao, Yingming, Standfuss, Jörg, Diederichs, Kay, Dong, Yuhui, Potter, Clinton S, Carragher, Bridget, Caffrey, Martin, Jiang, Hualiang, Chapman, Henry N, Spence, John CH, Fromme, Petra, Weierstall, Uwe, Ernst, Oliver P, Katritch, Vsevolod, Gurevich, Vsevolod V, Griffin, Patrick R, Hubbell, Wayne L, Stevens, Raymond C, Cherezov, Vadim, Melcher, Karsten, and Xu, H Eric

Subjects

1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, Arrestin, Binding Sites, Crystallography, X-Ray, Disulfides, Humans, Lasers, Mice, Models, Molecular, Multiprotein Complexes, Protein Binding, Reproducibility of Results, Rhodopsin, Signal Transduction, X-Rays, General Science & Technology

Abstract

G-protein-coupled receptors (GPCRs) signal primarily through G proteins or arrestins. Arrestin binding to GPCRs blocks G protein interaction and redirects signalling to numerous G-protein-independent pathways. Here we report the crystal structure of a constitutively active form of human rhodopsin bound to a pre-activated form of the mouse visual arrestin, determined by serial femtosecond X-ray laser crystallography. Together with extensive biochemical and mutagenesis data, the structure reveals an overall architecture of the rhodopsin-arrestin assembly in which rhodopsin uses distinct structural elements, including transmembrane helix 7 and helix 8, to recruit arrestin. Correspondingly, arrestin adopts the pre-activated conformation, with a ∼20° rotation between the amino and carboxy domains, which opens up a cleft in arrestin to accommodate a short helix formed by the second intracellular loop of rhodopsin. This structure provides a basis for understanding GPCR-mediated arrestin-biased signalling and demonstrates the power of X-ray lasers for advancing the frontiers of structural biology.

Published

2015

12. Time-resolved protein nanocrystallography using an X-ray free-electron laser

Author

Aquila, Andrew, Hunter, Mark S, Doak, R Bruce, Kirian, Richard A, Fromme, Petra, White, Thomas A, Andreasson, Jakob, Arnlund, David, Bajt, Saša, Barends, Thomas RM, Barthelmess, Miriam, Bogan, Michael J, Bostedt, Christoph, Bottin, Hervé, Bozek, John D, Caleman, Carl, Coppola, Nicola, Davidsson, Jan, DePonte, Daniel P, Elser, Veit, Epp, Sascha W, Erk, Benjamin, Fleckenstein, Holger, Foucar, Lutz, Frank, Matthias, Fromme, Raimund, Graafsma, Heinz, Grotjohann, Ingo, Gumprecht, Lars, Hajdu, Janos, Hampton, Christina Y, Hartmann, Andreas, Hartmann, Robert, Hau-Riege, Stefan, Hauser, Günter, Hirsemann, Helmut, Holl, Peter, Holton, James M, Hömke, André, Johansson, Linda, Kimmel, Nils, Kassemeyer, Stephan, Krasniqi, Faton, Kühnel, Kai-Uwe, Liang, Mengning, Lomb, Lukas, Malmerberg, Erik, Marchesini, Stefano, Martin, Andrew V, Maia, Filipe RNC, Messerschmidt, Marc, Nass, Karol, Reich, Christian, Neutze, Richard, Rolles, Daniel, Rudek, Benedikt, Rudenko, Artem, Schlichting, Ilme, Schmidt, Carlo, Schmidt, Kevin E, Schulz, Joachim, Seibert, M Marvin, Shoeman, Robert L, Sierra, Raymond, Soltau, Heike, Starodub, Dmitri, Stellato, Francesco, Stern, Stephan, Strüder, Lothar, Timneanu, Nicusor, Ullrich, Joachim, Wang, Xiaoyu, Williams, Garth J, Weidenspointner, Georg, Weierstall, Uwe, Wunderer, Cornelia, Barty, Anton, Spence, John CH, and Chapman, Henry N

Subjects

Crystallography, X-Ray, Electrons, Ferredoxins, Lasers, Nanostructures, Protein Conformation, X-Ray Diffraction, X-Rays, Optical Physics, Electrical and Electronic Engineering, Communications Technologies, Optics

Abstract

We demonstrate the use of an X-ray free electron laser synchronized with an optical pump laser to obtain X-ray diffraction snapshots from the photoactivated states of large membrane protein complexes in the form of nanocrystals flowing in a liquid jet. Light-induced changes of Photosystem I-Ferredoxin co-crystals were observed at time delays of 5 to 10 µs after excitation. The result correlates with the microsecond kinetics of electron transfer from Photosystem I to ferredoxin. The undocking process that follows the electron transfer leads to large rearrangements in the crystals that will terminally lead to the disintegration of the crystals. We describe the experimental setup and obtain the first time-resolved femtosecond serial X-ray crystallography results from an irreversible photo-chemical reaction at the Linac Coherent Light Source. This technique opens the door to time-resolved structural studies of reaction dynamics in biological systems.

Published

2012

13. Post-refinement method for snapshot serial crystallography

Author

White, Thomas A.

Published

2014

14. Phasing coherently illuminated nanocrystals bounded by partial unit cells

Author

Kirian, Richard A., Bean, Richard J., Beyerlein, Kenneth R., Yefanov, Oleksandr M., White, Thomas A., Barty, Anton, and Chapman, Henry N.

Published

2014

15. Mapping the continuous reciprocal space intensity distribution of X-ray serial crystallography

Author

Yefanov, Oleksandr, Gati, Cornelius, Bourenkov, Gleb, Kirian, Richard A., White, Thomas A., Spence, John C. H., Chapman, Henry N., and Barty, Anton

Published

2014

16. High-Resolution Protein Structure Determination by Serial Femtosecond Crystallography

Author

Boutet, Sébastien, Lomb, Lukas, Williams, Garth J., Barends, Thomas R. M., Aquila, Andrew, Doak, R. Bruce, Weierstall, Uwe, DePonte, Daniel P., Steinbrener, Jan, Shoeman, Robert L., Messerschmidt, Marc, Barty, Anton, White, Thomas A., Kassemeyer, Stephan, Kirian, Richard A., Seibert, M. Marvin, Montanez, Paul A., Kenney, Chris, Herbst, Ryan, Hart, Philip, Pines, Jack, Haller, Gunther, Gruner, Sol M., Philipp, Hugh T., Tate, Mark W., Hromalik, Marianne, Koerner, Lucas J., van Bakel, Niels, Morse, John, Ghonsalves, Wilfred, Arnlund, David, Bogan, Michael J., Caleman, Carl, Fromme, Raimund, Hampton, Christina Y., Hunter, Mark S., Johansson, Linda C., Katona, Gergely, Kupitz, Christopher, Liang, Mengning, Martin, Andrew V., Nass, Karol, Redecke, Lars, Stellato, Francesco, Timneanu, Nicusor, Wang, Dingjie, Zatsepin, Nadia A., Schafer, Donald, Defever, James, Neutze, Richard, Fromme, Petra, Spence, John C. H., Chapman, Henry N., and Schlichting, Ilme

Published

2012

17. Evaluation of serial crystallographic structure determination within megahertz pulse trains

Author

Yefanov, Oleksandr, Oberthür, Dominik, Bean, Richard, Wiedorn, Max O., Knoska, Juraj, Pena, Gisel, Awel, Salah, Domaracky, Martin, Sarrou, Iosifina, Lourdu Xavier, P., Metz, Markus, Bajt, Saša, Mariani, Valerio, Gevorkov, Yaroslav, White, Thomas A., Tolstikova, Aleksandra, Villanueva-Pérez, Pablo, Seuring, Carolin, Aplin, Steve, Estillore, Armando D., Küpper, Jochen, Klyuev, Alexander, Kuhn, Manuela, Laurus, Torsten, Graafsma, Heinz, Monteiro, Diana C. F., Trebbin, Martin, Maia, Filipe R. N. C., Cruz-Mazo, Francisco, Gañán-Calvo, Alfonso M., Universidad de Sevilla. Departamento de Ingeniería Aeroespacial y Mecánica de Fluidos, and Universidad de Sevilla. TEP 219 : Física de Fluidos y Microfluidica

Subjects

Free Electron Lasers, Crystallography, X-Ray Laser

Abstract

The new European X-ray Free-Electron Laser (European XFEL) is the first X-ray free-electron laser capable of delivering intense X-ray pulses with a megahertz interpulse spacing in a wavelength range suitable for atomic resolution structure determination. An outstanding but crucial question is whether the use of a pulse repetition rate nearly four orders of magnitude higher than previously possible results in unwanted structural changes due to either radiation damage or systematic effects on data quality. Here, separate structures from the first and subse- quent pulses in the European XFEL pulse train were determined, showing that there is essentially no difference between structures deter- mined from different pulses under currently available operating conditions at the European XFEL.

Published

2019

18. Crystallography and Molecular Imaging using X-ray Lasers

Author

White, Thomas Ashley

Subjects

Crystallography, biochemistry, free-electron laser, Physics::Optics

Abstract

A very successful application of X-ray free-electron lasers has been made in structural biology. Acquiring diffraction data using X-ray pulses with durations of a few tens of femtoseconds allows the conventional processes of radiation damage to be sidestepped, breaking limits that previously applied, while at the same time permitting experiments to probe chemical dynamics on short timescales. This contribution gives an introduction to applications of free-electron lasers in biochemistry, including potential future applications to single-molecule diffraction., CERN Yellow Reports: School Proceedings, Vol 1 (2018): Proceedings of the CAS-CERN Accelerator School on Free Electron Lasers and Energy Recovery Linacs

Published

2018

19. OnDA: online data analysis and feedback for serial X-ray imaging.

Author

Mariani, Valerio, Morgan, Andrew, Yoon, Chun Hong, Lane, Thomas J., White, Thomas A., O'Grady, Christopher, Kuhn, Manuela, Aplin, Steve, Koglin, Jason, Barty, Anton, and Chapman, Henry N.

Subjects

X-ray imaging, DATA analysis, COMPUTER monitors, DIFFRACTIVE scattering, CRYSTALLOGRAPHY

Abstract

This article describes a free and open-source data analysis utility designed for fast online feedback during serial X-ray diffraction and scattering experiments: OnDA (online data analysis). Three complete real-time monitors for common types of serial X-ray imaging experiments are presented. These monitors are capable of providing the essential information required for quick decision making in the face of extreme rates of data collection. In addition, a set of modules, functions and algorithms that allow developers to modify the provided monitors or develop new ones are provided. The emphasis here is on simple, modular and scalable code that is based on open-source libraries and protocols. OnDA monitors have already proven to be invaluable tools in several experiments, especially for scoring and monitoring of diffraction data during serial crystallography experiments at both free-electron laser and synchrotron facilities. It is felt that in the future the kind of fast feedback that OnDA monitors provide will help researchers to deal with the expected very high throughput data flow at next-generation facilities such as the European X-ray free-electron laser. [ABSTRACT FROM AUTHOR]

Published

2016

20. Recent developments in CrystFEL.

Author

White, Thomas A., Mariani, Valerio, Brehm, Wolfgang, Yefanov, Oleksandr, Barty, Anton, Beyerlein, Kenneth R., Chervinskii, Fedor, Galli, Lorenzo, Gati, Cornelius, Nakane, Takanori, Tolstikova, Alexandra, Yamashita, Keitaro, Yoon, Chun Hong, Diederichs, Kay, and Chapman, Henry N.

Subjects

*CRYSTALLOGRAPHY, *MICROCRYSTALLINE tests, *CONDENSED matter physics, *DIFFRACTION gratings, *OPTICAL gratings, *COMPUTER network resources

Abstract

CrystFEL is a suite of programs for processing data from `serial crystallography' experiments, which are usually performed using X-ray free-electron lasers (FELs) but also increasingly with other X-ray sources. The CrystFEL software suite has been under development since 2009, just before the first hard FEL experiments were performed, and has been significantly updated and improved since then. This article describes the most important improvements which have been made to CrystFEL since the first release version. These changes include the addition of new programs to the suite, the ability to resolve `indexing ambiguities' and several ways to improve the quality of the integrated data by more accurately modelling the underlying diffraction physics. [ABSTRACT FROM AUTHOR]

Published

2016

21. Towards RIP using free-electron laser SFX data.

Author

Galli, Lorenzo, Son, Sang-Kil, White, Thomas A., Santra, Robin, Chapman, Henry N., and Nanao, Max H.

Subjects

CRYSTALLOGRAPHY, FEMTOSECOND pulses, CATHEPSIN B, RADIATION damage, DIFFRACTION patterns, ELECTRON density

Abstract

Here, it is shown that simulated native serial femtosecond crystallography (SFX) cathepsin B data can be phased by rapid ionization of sulfur atoms. Utilizing standard software adopted for radiation-damage-induced phasing (RIP), the effects on both substructure determination and phasing of the number of collected patterns and fluences are explored for experimental conditions already available at current free-electron laser facilities. [ABSTRACT FROM AUTHOR]

Published

2015

22. Crystallographic data processing for free-electron laser sources.

Author

White, Thomas A., Barty, Anton, Stellato, Francesco, Holton, James M., Kirian, Richard A., Zatsepin, Nadia A., and Chapman, Henry N.

Subjects

*ELECTRONIC data processing, *FREE electron lasers, *CRYSTALLOGRAPHY, *PIPELINES, *MONTE Carlo method, *COMPUTER simulation, *DIFFRACTION gratings

Abstract

A processing pipeline for diffraction data acquired using the `serial crystallography' methodology with a free-electron laser source is described with reference to the crystallographic analysis suite CrystFEL and the pre-processing program Cheetah. A detailed analysis of the nature and impact of indexing ambiguities is presented. Simulations of the Monte Carlo integration scheme, which accounts for the partially recorded nature of the diffraction intensities, are presented and show that the integration of partial reflections could be made to converge more quickly if the bandwidth of the X-rays were to be increased by a small amount or if a slight convergence angle were introduced into the incident beam. [ABSTRACT FROM AUTHOR]

Published

2013

23. CrystFEL: a software suite for snapshot serial crystallography.

Author

White, Thomas A., Kirian, Richard A., Martin, Andrew V., Aquila, Andrew, Nass, Karol, Barty, Anton, and Chapman, Henry N.

Subjects

*CRYSTALLOGRAPHY, *FEMTOSECOND lasers, *CRYSTALS, *FREE electron lasers, *X-ray diffraction, *PARTICLES (Nuclear physics)

Abstract

In order to address the specific needs of the emerging technique of `serial femtosecond crystallography', in which structural information is obtained from small crystals illuminated by an X-ray free-electron laser, a new software suite has been created. The constituent programs deal with viewing, indexing, integrating, merging and evaluating the quality of the data, and also simulating patterns. The specific challenges addressed chiefly concern the indexing and integration of large numbers of diffraction patterns in an automated manner, and so the software is designed to be fast and to make use of multi-core hardware. Other constituent programs deal with the merging and scaling of large numbers of intensities from randomly oriented snapshot diffraction patterns. The suite uses a generalized representation of a detector to ease the use of more complicated geometries than those familiar in conventional crystallography. The suite is written in C with supporting Perl and shell scripts, and is available as source code under version 3 or later of the GNU General Public License. [ABSTRACT FROM AUTHOR]

Published

2012

24. CCP-FEL: a collection of computer programs for free-electron laser research.

Author

Maia, Filipe R. N. C., White, Thomas A., Loh, N. Duane, and Hajdu, Janos

Subjects

*FREE electron lasers, *SIMULATION software, *DATA quality, *DATA analysis, *CRYSTALLOGRAPHY, *DIFFRACTIVE scattering

Abstract

The latest virtual special issue of Journal of Applied Crystallography () collects software for free-electron laser research and presents tools for a range of topics such as simulation of experiments, online monitoring of data collection, selection of hits, diagnostics of data quality, data management, data analysis and structure determination for both nanocrystallography and single-particle diffractive imaging. This article provides an introduction to the special issue. [ABSTRACT FROM AUTHOR]

Published

2016

25. Trace phase detection and strain characterization from serial X-ray free-electron laser crystallography of a Pr0.5Ca0.5MnO3 powder.

Author

Beyerlein, Kenneth R., Jooss, Christian, Barty, Anton, Bean, Richard, Boutet, Sébastien, Dhesi, Sarnjeet S., Doak, R. Bruce, Först, Michael, Galli, Lorenzo, Kirian, Richard A., Kozak, Joseph, Lang, Michael, Mankowsky, Roman, Messerschmidt, Marc, Spence, John C. H., Wang, Dingjie, Weierstall, Uwe, White, Thomas A., Williams, Garth J., and Yefanov, Oleksandr

Subjects

PHASE detectors, FREE electron lasers, CRYSTALLOGRAPHY, FEMTOSECOND lasers, NANOCRYSTALS, MANGANITE

Abstract

We report on the analysis of virtual powder-diffraction patterns from serial femtosecond crystallography (SFX) data collected at an X-ray free-electron laser. Different approaches to binning and normalizing these patterns are discussed with respect to the microstructural characteristics which each highlights. Analysis of SFX data from a powder of Pr0.5Ca0.5MnO3 in this way finds evidence of other trace phases in its microstructure which was not detectable in a standard powder-diffraction measurement. Furthermore, a comparison between two virtual powder pattern integration strategies is shown to yield different diffraction peak broadening, indicating sensitivity to different types of microstrain. This paper is a first step in developing new data analysis methods for microstructure characterization from serial crystallography data. [ABSTRACT FROM AUTHOR]

Published

2015

26. Natively Inhibited Trypanosoma brucei Cathepsin B Structure Determined by Using an X-ray Laser.

Author

Redecke, Lars, Nass, Karol, DePonte, Daniel P., White, Thomas A., Rehders, Dirk, Barty, Anton, Stellato, Francesco, Mengning Liang, Barends, Thomas R. M., Boutet, Sébastien, Williams, Garth J., Messerschmidt, Marc, Seibert, M. Marvin, Aquila, Andrew, Arnlund, David, Bajt, Sasa, Barth, Torsten, Bogan, Michael J., Caleman, Carl, and Tzu-Chiao Chao

Subjects

*TRYPANOSOMA brucei, *CATHEPSIN B, *X-ray lasers, *CYSTEINE proteinases, *AFRICAN trypanosomiasis, *CRYSTALLIZATION, *CRYSTALLOGRAPHY, *GLYCOSYLATION, *FREE electron lasers, *NANOCRYSTALS

Abstract

The Trypanosoma brucei cysteine protease cathepsin B (TbCatB), which is involved in host protein degradation, is a promising target to develop new treatments against sleeping sickness, a fatal disease caused by this protozoan parasite. The structure of the mature, active form of TbCatB has so far not provided sufficient information for the design of a safe and specific drug against T. brucei. By combining two recent innovations, in vivo crystallization and serial femtosecond crystallography, we obtained the room-temperature 2.1 angstrom resolution structure of the fully glycosylated precursor complex of TbCatB. The structure reveals the mechanism of native TbCatB inhibition and demonstrates that new biomolecular information can be obtained by the "diffraction-before-destruction" approach of x-ray free-electron lasers from hundreds of thousands of individual microcrystals. [ABSTRACT FROM AUTHOR]

Published

2013