37 results on '"Kloos, Marco"'
Search Results
2. SARS-CoV-2 Mpro responds to oxidation by forming disulfide and NOS/SONOS bonds
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Reinke, Patrick Y. A., Schubert, Robin, Oberthür, Dominik, Galchenkova, Marina, Rahmani Mashhour, Aida, Günther, Sebastian, Chretien, Anaïs, Round, Adam, Seychell, Brandon Charles, Norton-Baker, Brenna, Kim, Chan, Schmidt, Christina, Koua, Faisal H. M., Tolstikova, Alexandra, Ewert, Wiebke, Peña Murillo, Gisel Esperanza, Mills, Grant, Kirkwood, Henry, Brognaro, Hévila, Han, Huijong, Koliyadu, Jayanath, Schulz, Joachim, Bielecki, Johan, Lieske, Julia, Maracke, Julia, Knoska, Juraj, Lorenzen, Kristina, Brings, Lea, Sikorski, Marcin, Kloos, Marco, Vakili, Mohammad, Vagovic, Patrik, Middendorf, Philipp, de Wijn, Raphael, Bean, Richard, Letrun, Romain, Han, Seonghyun, Falke, Sven, Geng, Tian, Sato, Tokushi, Srinivasan, Vasundara, Kim, Yoonhee, Yefanov, Oleksandr M., Gelisio, Luca, Beck, Tobias, Doré, Andrew S., Mancuso, Adrian P., Betzel, Christian, Bajt, Saša, Redecke, Lars, Chapman, Henry N., Meents, Alke, Turk, Dušan, Hinrichs, Winfried, and Lane, Thomas J.
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- 2024
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3. Influence of pump laser fluence on ultrafast myoglobin structural dynamics
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Barends, Thomas R. M., Gorel, Alexander, Bhattacharyya, Swarnendu, Schirò, Giorgio, Bacellar, Camila, Cirelli, Claudio, Colletier, Jacques-Philippe, Foucar, Lutz, Grünbein, Marie Luise, Hartmann, Elisabeth, Hilpert, Mario, Holton, James M., Johnson, Philip J. M., Kloos, Marco, Knopp, Gregor, Marekha, Bogdan, Nass, Karol, Nass Kovacs, Gabriela, Ozerov, Dmitry, Stricker, Miriam, Weik, Martin, Doak, R. Bruce, Shoeman, Robert L., Milne, Christopher J., Huix-Rotllant, Miquel, Cammarata, Marco, and Schlichting, Ilme
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- 2024
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4. Rational Control of Off‐State Heterogeneity in a Photoswitchable Fluorescent Protein Provides Switching Contrast Enhancement**
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Adam, Virgile, Hadjidemetriou, Kyprianos, Jensen, Nickels, Shoeman, Robert L, Woodhouse, Joyce, Aquila, Andrew, Banneville, Anne‐Sophie, Barends, Thomas RM, Bezchastnov, Victor, Boutet, Sébastien, Byrdin, Martin, Cammarata, Marco, Carbajo, Sergio, Christou, Nina Eleni, Coquelle, Nicolas, De la Mora, Eugenio, Khatib, Mariam El, Chicano, Tadeo Moreno, Doak, R Bruce, Fieschi, Franck, Foucar, Lutz, Glushonkov, Oleksandr, Gorel, Alexander, Grünbein, Marie Luise, Hilpert, Mario, Hunter, Mark, Kloos, Marco, Koglin, Jason E, Lane, Thomas J, Liang, Mengning, Mantovanelli, Angela, Nass, Karol, Kovacs, Gabriela Nass, Owada, Shigeki, Roome, Christopher M, Schirò, Giorgio, Seaberg, Matthew, Stricker, Miriam, Thépaut, Michel, Tono, Kensuke, Ueda, Kiyoshi, Uriarte, Lucas M, You, Daehyun, Zala, Ninon, Domratcheva, Tatiana, Jakobs, Stefan, Sliwa, Michel, Schlichting, Ilme, Colletier, Jacques‐Philippe, Bourgeois, Dominique, and Weik, Martin
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Generic health relevance ,Escherichia coli ,Green Fluorescent Proteins ,Luminescent Proteins ,Microscopy ,nanoscopy ,photoswitchable fluorescent proteins ,serial femtosecond crystallography ,switching contrast ,quantum chemistry ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Physical Chemistry (incl. Structural) ,Theoretical and Computational Chemistry ,Chemical Physics - Abstract
Reversibly photoswitchable fluorescent proteins are essential markers for advanced biological imaging, and optimization of their photophysical properties underlies improved performance and novel applications. Here we establish a link between photoswitching contrast, one of the key parameters that dictate the achievable resolution in nanoscopy applications, and chromophore conformation in the non-fluorescent state of rsEGFP2, a widely employed label in REversible Saturable OpticaL Fluorescence Transitions (RESOLFT) microscopy. Upon illumination, the cis chromophore of rsEGFP2 isomerizes to two distinct off-state conformations, trans1 and trans2, located on either side of the V151 side chain. Reducing or enlarging the side chain at this position (V151A and V151L variants) leads to single off-state conformations that exhibit higher and lower switching contrast, respectively, compared to the rsEGFP2 parent. The combination of structural information obtained by serial femtosecond crystallography with high-level quantum chemical calculations and with spectroscopic and photophysical data determined in vitro suggests that the changes in switching contrast arise from blue- and red-shifts of the absorption bands associated to trans1 and trans2, respectively. Thus, due to elimination of trans2, the V151A variants of rsEGFP2 and its superfolding variant rsFolder2 display a more than two-fold higher switching contrast than their respective parent proteins, both in vitro and in E. coli cells. The application of the rsFolder2-V151A variant is demonstrated in RESOLFT nanoscopy. Our study rationalizes the connection between structural and photophysical chromophore properties and suggests a means to rationally improve fluorescent proteins for nanoscopy applications.
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- 2022
5. Form factor determination of biological molecules with X-ray free electron laser small-angle scattering (XFEL-SAS)
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Blanchet, Clement E., Round, Adam, Mertens, Haydyn D. T., Ayyer, Kartik, Graewert, Melissa, Awel, Salah, Franke, Daniel, Dörner, Katerina, Bajt, Saša, Bean, Richard, Custódio, Tânia F., de Wijn, Raphael, Juncheng, E., Henkel, Alessandra, Gruzinov, Andrey, Jeffries, Cy M., Kim, Yoonhee, Kirkwood, Henry, Kloos, Marco, Knoška, Juraj, Koliyadu, Jayanath, Letrun, Romain, Löw, Christian, Makroczyova, Jana, Mall, Abhishek, Meijers, Rob, Pena Murillo, Gisel Esperanza, Oberthür, Dominik, Round, Ekaterina, Seuring, Carolin, Sikorski, Marcin, Vagovic, Patrik, Valerio, Joana, Wollweber, Tamme, Zhuang, Yulong, Schulz, Joachim, Haas, Heinrich, Chapman, Henry N., Mancuso, Adrian P., and Svergun, Dmitri
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- 2023
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6. Co-flow injection for serial crystallography at X-ray free-electron lasers.
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Doppler, Diandra, Rabbani, Mohammad, Letrun, Romain, Cruz Villarreal, Jorvani, Kim, Dai, Gandhi, Sahir, Egatz-Gomez, Ana, Sonker, Mukul, Chen, Joe, Koua, Faisal, Yang, Jayhow, Youssef, Mohamed, Mazalova, Victoria, Bajt, Saša, Shelby, Megan, Coleman, Matt, Wiedorn, Max, Knoska, Juraj, Schön, Silvan, Sato, Tokushi, Hunter, Mark, Hosseinizadeh, Ahmad, Kuptiz, Christopher, Nazari, Reza, Alvarez, Roberto, Karpos, Konstantinos, Zaare, Sahba, Dobson, Zachary, Discianno, Erin, Zhang, Shangji, Zook, James, Bielecki, Johan, de Wijn, Raphael, Round, Adam, Vagovic, Patrik, Kloos, Marco, Vakili, Mohammad, Ketawala, Gihan, Stander, Natasha, Olson, Tien, Morin, Katherine, Mondal, Jyotirmory, Nguyen, Jonathan, Meza-Aguilar, José, Kodis, Gerdenis, Vaiana, Sara, Martin-Garcia, Jose, Mariani, Valerio, Schwander, Peter, Schmidt, Marius, Messerschmidt, Marc, Ourmazd, Abbas, Zatsepin, Nadia, Weierstall, Uwe, Bruce, Barry, Mancuso, Adrian, Grant, Thomas, Barty, Anton, Chapman, Henry, Fromme, Raimund, Spence, John, Botha, Sabine, Fromme, Petra, Kirian, Richard, Ros, Alexandra, and Frank, Matthias
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3D printing ,X-ray free-electron lasers ,XFELs ,microfluidic devices ,sample consumption ,serial crystallography ,viscous media - Abstract
Serial femtosecond crystallography (SFX) is a powerful technique that exploits X-ray free-electron lasers to determine the structure of macro-molecules at room temperature. Despite the impressive exposition of structural details with this novel crystallographic approach, the methods currently available to introduce crystals into the path of the X-ray beam sometimes exhibit serious drawbacks. Samples requiring liquid injection of crystal slurries consume large quantities of crystals (at times up to a gram of protein per data set), may not be compatible with vacuum configurations on beamlines or provide a high background due to additional sheathing liquids present during the injection. Proposed and characterized here is the use of an immiscible inert oil phase to supplement the flow of sample in a hybrid microfluidic 3D-printed co-flow device. Co-flow generation is reported with sample and oil phases flowing in parallel, resulting in stable injection conditions for two different resin materials experimentally. A numerical model is presented that adequately predicts these flow-rate conditions. The co-flow generating devices reduce crystal clogging effects, have the potential to conserve protein crystal samples up to 95% and will allow degradation-free light-induced time-resolved SFX.
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- 2022
7. De novo determination of mosquitocidal Cry11Aa and Cry11Ba structures from naturally-occurring nanocrystals
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Tetreau, Guillaume, Sawaya, Michael R, De Zitter, Elke, Andreeva, Elena A, Banneville, Anne-Sophie, Schibrowsky, Natalie A, Coquelle, Nicolas, Brewster, Aaron S, Grünbein, Marie Luise, Kovacs, Gabriela Nass, Hunter, Mark S, Kloos, Marco, Sierra, Raymond G, Schiro, Giorgio, Qiao, Pei, Stricker, Myriam, Bideshi, Dennis, Young, Iris D, Zala, Ninon, Engilberge, Sylvain, Gorel, Alexander, Signor, Luca, Teulon, Jean-Marie, Hilpert, Mario, Foucar, Lutz, Bielecki, Johan, Bean, Richard, de Wijn, Raphael, Sato, Tokushi, Kirkwood, Henry, Letrun, Romain, Batyuk, Alexander, Snigireva, Irina, Fenel, Daphna, Schubert, Robin, Canfield, Ethan J, Alba, Mario M, Laporte, Frédéric, Després, Laurence, Bacia, Maria, Roux, Amandine, Chapelle, Christian, Riobé, François, Maury, Olivier, Ling, Wai Li, Boutet, Sébastien, Mancuso, Adrian, Gutsche, Irina, Girard, Eric, Barends, Thomas RM, Pellequer, Jean-Luc, Park, Hyun-Woo, Laganowsky, Arthur D, Rodriguez, Jose, Burghammer, Manfred, Shoeman, Robert L, Doak, R Bruce, Weik, Martin, Sauter, Nicholas K, Federici, Brian, Cascio, Duilio, Schlichting, Ilme, and Colletier, Jacques-Philippe
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Inorganic Chemistry ,Biochemistry and Cell Biology ,Chemical Sciences ,Biological Sciences ,Animals ,Bacillus thuringiensis ,Bacterial Proteins ,Endotoxins ,Hemolysin Proteins ,Larva ,Mosquito Control ,Nanoparticles - Abstract
Cry11Aa and Cry11Ba are the two most potent toxins produced by mosquitocidal Bacillus thuringiensis subsp. israelensis and jegathesan, respectively. The toxins naturally crystallize within the host; however, the crystals are too small for structure determination at synchrotron sources. Therefore, we applied serial femtosecond crystallography at X-ray free electron lasers to in vivo-grown nanocrystals of these toxins. The structure of Cry11Aa was determined de novo using the single-wavelength anomalous dispersion method, which in turn enabled the determination of the Cry11Ba structure by molecular replacement. The two structures reveal a new pattern for in vivo crystallization of Cry toxins, whereby each of their three domains packs with a symmetrically identical domain, and a cleavable crystal packing motif is located within the protoxin rather than at the termini. The diversity of in vivo crystallization patterns suggests explanations for their varied levels of toxicity and rational approaches to improve these toxins for mosquito control.
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- 2022
8. Observation of substrate diffusion and ligand binding in enzyme crystals using high-repetition-rate mix-and-inject serial crystallography
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Pandey, Suraj, Calvey, George, Katz, Andrea M, Malla, Tek Narsingh, Koua, Faisal HM, Martin-Garcia, Jose M, Poudyal, Ishwor, Yang, Jay-How, Vakili, Mohammad, Yefanov, Oleksandr, Zielinski, Kara A, Bajt, Sasa, Awel, Salah, Doerner, Katarina, Frank, Matthias, Gelisio, Luca, Jernigan, Rebecca, Kirkwood, Henry, Kloos, Marco, Koliyadu, Jayanath, Mariani, Valerio, Miller, Mitchell D, Mills, Grant, Nelson, Garrett, Olmos, Jose L, Sadri, Alireza, Sato, Tokushi, Tolstikova, Alexandra, Xu, Weijun, Ourmazd, Abbas, Spence, John CH, Schwander, Peter, Barty, Anton, Chapman, Henry N, Fromme, Petra, Mancuso, Adrian P, Phillips, George N, Bean, Richard, Pollack, Lois, and Schmidt, Marius
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Tuberculosis ,Rare Diseases ,Good Health and Well Being ,substrate diffusion in crystals ,antibiotic resistance ,beta-lactamases ,enzyme kinetics ,irreversible inhibition ,mix-and-inject serial crystallography ,serial femtosecond crystallography ,European X-ray Free-Electron Laser ,megahertz pulse-repetition rate ,protein structure determination ,drug discovery ,ceftriaxone ,sulbactam ,X-ray crystallography ,enzyme mechanisms ,β-lactamases ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Condensed Matter Physics ,Physical Chemistry (incl. Structural) - Abstract
Here, we illustrate what happens inside the catalytic cleft of an enzyme when substrate or ligand binds on single-millisecond timescales. The initial phase of the enzymatic cycle is observed with near-atomic resolution using the most advanced X-ray source currently available: the European XFEL (EuXFEL). The high repetition rate of the EuXFEL combined with our mix-and-inject technology enables the initial phase of ceftriaxone binding to the Mycobacterium tuberculosis β-lactamase to be followed using time-resolved crystallography in real time. It is shown how a diffusion coefficient in enzyme crystals can be derived directly from the X-ray data, enabling the determination of ligand and enzyme-ligand concentrations at any position in the crystal volume as a function of time. In addition, the structure of the irreversible inhibitor sulbactam bound to the enzyme at a 66 ms time delay after mixing is described. This demonstrates that the EuXFEL can be used as an important tool for biomedically relevant research.
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- 2021
9. De novo determination of mosquitocidal Cry11Aa and Cry11Ba structures from naturally-occurring nanocrystals
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Tetreau, Guillaume, Sawaya, Michael R, De Zitter, Elke, Andreeva, Elena A, Banneville, Anne-Sophie, Schibrowsky, Natalie, Coquelle, Nicolas, Brewster, Aaron S, Grünbein, Marie Luise, Kovacs, Gabriela Nass, Hunter, Mark S, Kloos, Marco, Sierra, Raymond G, Schiro, Giorgio, Qiao, Pei, Stricker, Myriam, Bideshi, Dennis, Young, Iris D, Zala, Ninon, Engilberge, Sylvain, Gorel, Alexander, Signor, Luca, Teulon, Jean-Marie, Hilpert, Mario, Foucar, Lutz, Bielecki, Johan, Bean, Richard, de Wijn, Raphael, Sato, Tokushi, Kirkwood, Henry, Letrun, Romain, Batyuk, Alexander, Snigireva, Irina, Fenel, Daphna, Schubert, Robin, Canfield, Ethan J, Alba, Mario M, Laporte, Frédéric, Després, Laurence, Bacia, Maria, Roux, Amandine, Chapelle, Christian, Riobé, François, Maury, Olivier, Ling, Wai Li, Boutet, Sébastien, Mancuso, Adrian, Gutsche, Irina, Girard, Eric, Barends, Thomas RM, Pellequer, Jean-Luc, Park, Hyun-Woo, Laganowsky, Arthur D, Rodriguez, Jose, Burghammer, Manfred, Shoeman, Robert L, Doak, R Bruce, Weik, Martin, Sauter, Nicholas K, Federici, Brian, Cascio, Duilio, Schlichting, Ilme, and Colletier, Jacques-Philippe
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Inorganic Chemistry ,Biochemistry and Cell Biology ,Chemical Sciences ,Biological Sciences - Abstract
Cry11Aa and Cry11Ba are the two most potent toxins produced by mosquitocidal Bacillus thuringiensis subsp. israelensis and jegathesan , respectively. The toxins naturally crystallize within the host; however, the crystals are too small for structure determination at synchrotron sources. Therefore, we applied serial femtosecond crystallography at X-ray free electron lasers to in vivo -grown nanocrystals of these toxins. The structure of Cry11Aa was determined de novo using the single-wavelength anomalous dispersion method, which in turn enabled the determination of the Cry11Ba structure by molecular replacement. The two structures reveal a new pattern for in vivo crystallization of Cry toxins, whereby each of their three domains packs with a symmetrically identical domain, and a cleavable crystal packing motif is located within the protoxin rather than at the termini. The diversity of in vivo crystallization patterns suggests explanations for their varied levels of toxicity and rational approaches to improve these toxins for mosquito control.
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- 2021
10. A multi-million image Serial Femtosecond Crystallography dataset collected at the European XFEL
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Kirkwood, Henry J., de Wijn, Raphael, Mills, Grant, Letrun, Romain, Kloos, Marco, Vakili, Mohammad, Karnevskiy, Mikhail, Ahmed, Karim, Bean, Richard J., Bielecki, Johan, Dall’Antonia, Fabio, Kim, Yoonhee, Kim, Chan, Koliyadu, Jayanath, Round, Adam, Sato, Tokushi, Sikorski, Marcin, Vagovič, Patrik, Sztuk-Dambietz, Jolanta, and Mancuso, Adrian P.
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- 2022
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11. Insights into an efficient light-driven hybrid P450 BM3 enzyme from crystallographic, spectroscopic and biochemical studies
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Spradlin, Jessica, Lee, Diana, Mahadevan, Sruthi, Mahomed, Mavish, Tang, Lawrence, Lam, Quan, Colbert, Alexander, Shafaat, Oliver S, Goodin, David, Kloos, Marco, Kato, Mallory, and Cheruzel, Lionel E
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Biochemistry and Cell Biology ,Biological Sciences ,Amino Acid Substitution ,Bacterial Proteins ,Crystallography ,X-Ray ,Cytochrome P-450 Enzyme System ,Electron Transport ,Heme ,Kinetics ,Models ,Molecular ,Mutagenesis ,Site-Directed ,NADPH-Ferrihemoprotein Reductase ,Photochemical Processes ,Protein Conformation ,Recombinant Fusion Proteins ,Spectrophotometry ,Cytochrome P450 ,Electron transfer ,Hybrid P450 BM3 enzymes ,Crystal structure ,Enzyme catalysis ,Photocatalytic activity ,Physical Sciences ,Biological sciences ,Physical sciences - Abstract
BackgroundIn order to perform selective CH functionalization upon visible light irradiation, Ru(II)-diimine functionalized P450 heme enzymes have been developed. The sL407C-1 enzyme containing the Ru(bpy)2PhenA (bpy=2,2'-bipyridine and PhenA=5-acetamido-1,10-phenanthroline) photosensitizer (1) covalently attached to the non-native single cysteine L407C of the P450BM3 heme domain mutant, displays high photocatalytic activity in the selective CH bond hydroxylation of several substrates.MethodsA combination of X-ray crystallography, site-directed mutagenesis, transient absorption measurements and enzymatic assays was used to gain insights into its photocatalytic activity and electron transfer pathway.ResultsThe crystal structure of the sL407C-1 enzyme was solved in the open and closed conformations revealing a through-space electron transfer pathway involving highly conserved, F393 and Q403, residues. Several mutations of these residues (F393A, F393W or Q403W) were introduced to probe their roles in the overall reaction. Transient absorption measurements confirm rapid electron transfer as heme reduction is observed in all four hybrid enzymes. Compared to the parent sL407C-1, photocatalytic activity was negligible in the dF393A-1 enzyme while 60% increase in activity with total turnover numbers of 420 and 90% product conversion was observed with the dQ403W-1 mutant.ConclusionsIn the sL407C-1 enzyme, the photosensitizer is ideally located to rapidly deliver electrons, using the naturally occurring electron transfer pathway, to the heme center in order to activate molecular dioxygen and sustain photocatalytic activity.General significanceThe results shed light on the design of efficient light-driven biocatalysts and the approach can be generalized to other members of the P450 superfamily.
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- 2016
12. Effect of X-ray free-electron laser-induced shockwaves on haemoglobin microcrystals delivered in a liquid jet
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Grünbein, Marie Luise, Gorel, Alexander, Foucar, Lutz, Carbajo, Sergio, Colocho, William, Gilevich, Sasha, Hartmann, Elisabeth, Hilpert, Mario, Hunter, Mark, Kloos, Marco, Koglin, Jason E., Lane, Thomas J., Lewandowski, Jim, Lutman, Alberto, Nass, Karol, Nass Kovacs, Gabriela, Roome, Christopher M., Sheppard, John, Shoeman, Robert L., Stricker, Miriam, van Driel, Tim, Vetter, Sharon, Doak, R. Bruce, Boutet, Sébastien, Aquila, Andrew, Decker, Franz Josef, Barends, Thomas R. M., Stan, Claudiu Andrei, and Schlichting, Ilme
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- 2021
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13. Illumination guidelines for ultrafast pump–probe experiments by serial femtosecond crystallography
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Grünbein, Marie Luise, Stricker, Miriam, Nass Kovacs, Gabriela, Kloos, Marco, Doak, R. Bruce, Shoeman, Robert L., Reinstein, Jochen, Lecler, Sylvain, Haacke, Stefan, and Schlichting, Ilme
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- 2020
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14. Structural dynamics in proteins induced by and probed with X-ray free-electron laser pulses
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Nass, Karol, Gorel, Alexander, Abdullah, Malik M., V. Martin, Andrew, Kloos, Marco, Marinelli, Agostino, Aquila, Andrew, Barends, Thomas R. M., Decker, Franz-Josef, Bruce Doak, R., Foucar, Lutz, Hartmann, Elisabeth, Hilpert, Mario, Hunter, Mark S., Jurek, Zoltan, Koglin, Jason E., Kozlov, Alexander, Lutman, Alberto A., Kovacs, Gabriela Nass, Roome, Christopher M., Shoeman, Robert L., Santra, Robin, Quiney, Harry M., Ziaja, Beata, Boutet, Sébastien, and Schlichting, Ilme
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- 2020
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15. Structure of the Lysinibacillus sphaericus Tpp49Aa1 pesticidal protein elucidated from natural crystals using MHz-SFX.
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Williamson, Lainey J., Galchenkova, Marina, Best, Hannah L., Bean, Richard J., Munke, Anna, Awel, Salah, Pena, Gisel, Knoska, Juraj, Schubert, Robin, Dörner, Katerina, Hyun-Woo Park, Bideshi, Dennis K., Henkel, Alessandra, Kremling, Viviane, Klopprogge, Bjarne, Lloyd-Evans, Emyr, Young, Mark T., Valerio, Joana, Kloos, Marco, and Sikorski, Marcin
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FREE electron lasers ,ANOPHELES stephensi ,CULEX quinquefasciatus ,AEDES albopictus ,MOSQUITO control - Abstract
The Lysinibacillus sphaericus proteins Tpp49Aa1 and Cry48Aa1 can together act as a toxin toward the mosquito Culex quinquefasciatus and have potential use in biocontrol. Given that proteins with sequence homology to the individual proteins can have activity alone against other insect species, the structure of Tpp49Aa1 was solved in order to understand this protein more fully and inform the design of improved biopesticides. Tpp49Aa1 is naturally expressed as a crystalline inclusion within the host bacterium, and MHz serial femtosecond crystallography using the novel nanofocus option at an X-ray free electron laser allowed rapid and high-quality data collection to determine the structure of Tpp49Aa1 at 1.62 Å resolution. This revealed the packing of Tpp49Aa1 within these natural nanocrystals as a homodimer with a large intermolecular interface. Complementary experiments conducted at varied pH also enabled investigation of the early structural events leading up to the dissolution of natural Tpp49Aa1 crystals--a crucial step in its mechanism of action. To better understand the cooperation between the two proteins, assays were performed on a range of different mosquito cell lines using both individual proteins and mixtures of the two. Finally, bioassays demonstrated Tpp49Aa1/Cry48Aa1 susceptibility of Anopheles stephensi, Aedes albopictus, and Culex tarsalis larvae--substantially increasing the potential use of this binary toxin in mosquito control. [ABSTRACT FROM AUTHOR]
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- 2023
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16. Three-dimensional view of ultrafast dynamics in photoexcited bacteriorhodopsin
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Nass Kovacs, Gabriela, Colletier, Jacques-Philippe, Grünbein, Marie Luise, Yang, Yang, Stensitzki, Till, Batyuk, Alexander, Carbajo, Sergio, Doak, R. Bruce, Ehrenberg, David, Foucar, Lutz, Gasper, Raphael, Gorel, Alexander, Hilpert, Mario, Kloos, Marco, Koglin, Jason E., Reinstein, Jochen, Roome, Christopher M., Schlesinger, Ramona, Seaberg, Matthew, Shoeman, Robert L., Stricker, Miriam, Boutet, Sébastien, Haacke, Stefan, Heberle, Joachim, Heyne, Karsten, Domratcheva, Tatiana, Barends, Thomas R. M., and Schlichting, Ilme
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- 2019
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17. MHz data collection of a microcrystalline mixture of different jack bean proteins
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Grünbein, Marie Luise, Bielecki, Johan, Gorel, Alexander, Stricker, Miriam, Bean, Richard, Cammarata, Marco, Dörner, Katerina, Fröhlich, Lars, Hartmann, Elisabeth, Hauf, Steffen, Hilpert, Mario, Kim, Yoonhee, Kloos, Marco, Letrun, Romain, Messerschmidt, Marc, Mills, Grant, Nass Kovacs, Gabriela, Ramilli, Marco, Roome, Christopher M., Sato, Tokushi, Scholz, Matthias, Sliwa, Michel, Sztuk-Dambietz, Jolanta, Weik, Martin, Weinhausen, Britta, Al-Qudami, Nasser, Boukhelef, Djelloul, Brockhauser, Sandor, Ehsan, Wajid, Emons, Moritz, Esenov, Sergey, Fangohr, Hans, Kaukher, Alexander, Kluyver, Thomas, Lederer, Max, Maia, Luis, Manetti, Maurizio, Michelat, Thomas, Münnich, Astrid, Pallas, Florent, Palmer, Guido, Previtali, Gianpietro, Raab, Natascha, Silenzi, Alessandro, Szuba, Janusz, Venkatesan, Sandhya, Wrona, Krzysztof, Zhu, Jun, Doak, R. Bruce, Shoeman, Robert L., Foucar, Lutz, Colletier, Jacques-Philippe, Mancuso, Adrian P., Barends, Thomas R. M., Stan, Claudiu A., and Schlichting, Ilme
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- 2019
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18. Mix‐and‐extrude: high‐viscosity sample injection towards time‐resolved protein crystallography.
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Vakili, Mohammad, Han, Huijong, Schmidt, Christina, Wrona, Agnieszka, Kloos, Marco, de Diego, Iñaki, Dörner, Katerina, Geng, Tian, Kim, Chan, Koua, Faisal H. M., Melo, Diogo V. M., Rappas, Mathieu, Round, Adam, Round, Ekaterina, Sikorski, Marcin, Valerio, Joana, Zhou, Tiankun, Lorenzen, Kristina, and Schulz, Joachim
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PROTEIN crystallography ,CRYSTALLOIDS (Botany) ,MEMBRANE proteins ,COPPER proteins ,FLUORESCENCE quenching ,MICROCHANNEL flow - Abstract
Time‐resolved crystallography enables the visualization of protein molecular motion during a reaction. Although light is often used to initiate reactions in time‐resolved crystallography, only a small number of proteins can be activated by light. However, many biological reactions can be triggered by the interaction between proteins and ligands. The sample delivery method presented here uses a mix‐and‐extrude approach based on 3D‐printed microchannels in conjunction with a micronozzle. The diffusive mixing enables the study of the dynamics of samples in viscous media. The device design allows mixing of the ligands and protein crystals in 2 to 20 s. The device characterization using a model system (fluorescence quenching of iq‐mEmerald proteins by copper ions) demonstrated that ligand and protein crystals, each within lipidic cubic phase, can be mixed efficiently. The potential of this approach for time‐resolved membrane protein crystallography to support the development of new drugs is discussed. [ABSTRACT FROM AUTHOR]
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- 2023
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19. Megahertz data collection from protein microcrystals at an X-ray free-electron laser
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Grünbein, Marie Luise, Bielecki, Johan, Gorel, Alexander, Stricker, Miriam, Bean, Richard, Cammarata, Marco, Dörner, Katerina, Fröhlich, Lars, Hartmann, Elisabeth, Hauf, Steffen, Hilpert, Mario, Kim, Yoonhee, Kloos, Marco, Letrun, Romain, Messerschmidt, Marc, Mills, Grant, Nass Kovacs, Gabriela, Ramilli, Marco, Roome, Christopher M., Sato, Tokushi, Scholz, Matthias, Sliwa, Michel, Sztuk-Dambietz, Jolanta, Weik, Martin, Weinhausen, Britta, Al-Qudami, Nasser, Boukhelef, Djelloul, Brockhauser, Sandor, Ehsan, Wajid, Emons, Moritz, Esenov, Sergey, Fangohr, Hans, Kaukher, Alexander, Kluyver, Thomas, Lederer, Max, Maia, Luis, Manetti, Maurizio, Michelat, Thomas, Münnich, Astrid, Pallas, Florent, Palmer, Guido, Previtali, Gianpietro, Raab, Natascha, Silenzi, Alessandro, Szuba, Janusz, Venkatesan, Sandhya, Wrona, Krzysztof, Zhu, Jun, Doak, R. Bruce, Shoeman, Robert L., Foucar, Lutz, Colletier, Jacques-Philippe, Mancuso, Adrian P., Barends, Thomas R. M., Stan, Claudiu A., and Schlichting, Ilme
- Published
- 2018
- Full Text
- View/download PDF
20. Structure and allosteric regulation of eukaryotic 6-phosphofructokinases
- Author
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Schöneberg, Torsten, Kloos, Marco, Brüser, Antje, Kirchberger, Jürgen, and Sträter, Norbert
- Published
- 2013
- Full Text
- View/download PDF
21. 3D printed devices and infrastructure for liquid sample delivery at the European XFEL.
- Author
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Vakili, Mohammad, Bielecki, Johan, Knoška, Juraj, Otte, Florian, Han, Huijong, Kloos, Marco, Schubert, Robin, Delmas, Elisa, Mills, Grant, de Wijn, Raphael, Letrun, Romain, Dold, Simon, Bean, Richard, Round, Adam, Kim, Yoonhee, Lima, Frederico A., Dörner, Katerina, Valerio, Joana, Heymann, Michael, and Mancuso, Adrian P.
- Subjects
SCIENTIFIC apparatus & instruments ,GAS dynamics ,X-ray crystallography ,MORPHOLOGY ,X-ray lasers ,RAPID prototyping - Abstract
The Sample Environment and Characterization (SEC) group of the European X‐ray Free‐Electron Laser (EuXFEL) develops sample delivery systems for the various scientific instruments, including systems for the injection of liquid samples that enable serial femtosecond X‐ray crystallography (SFX) and single‐particle imaging (SPI) experiments, among others. For rapid prototyping of various device types and materials, sub‐micrometre precision 3D printers are used to address the specific experimental conditions of SFX and SPI by providing a large number of devices with reliable performance. This work presents the current pool of 3D printed liquid sample delivery devices, based on the two‐photon polymerization (2PP) technique. These devices encompass gas dynamic virtual nozzles (GDVNs), mixing‐GDVNs, high‐viscosity extruders (HVEs) and electrospray conical capillary tips (CCTs) with highly reproducible geometric features that are suitable for time‐resolved SFX and SPI experiments at XFEL facilities. Liquid sample injection setups and infrastructure on the Single Particles, Clusters, and Biomolecules and Serial Femtosecond Crystallography (SPB/SFX) instrument are described, this being the instrument which is designated for biological structure determination at the EuXFEL. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
22. Data reduction for serial crystallography using a robust peak finder.
- Author
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Hadian-Jazi, Marjan, Sadri, Alireza, Barty, Anton, Yefanov, Oleksandr, Galchenkova, Marina, Oberthuer, Dominik, Komadina, Dana, Brehm, Wolfgang, Kirkwood, Henry, Mills, Grant, de Wijn, Raphael, Letrun, Romain, Kloos, Marco, Vakili, Mohammad, Gelisio, Luca, Darmanin, Connie, Mancuso, Adrian P., Chapman, Henry N., and Abbey, Brian
- Subjects
DATA reduction ,REAL-time computing ,ROBUST statistics ,CRYSTALLOGRAPHY ,X-ray lasers ,FREE electron lasers - Abstract
A peak‐finding algorithm for serial crystallography (SX) data analysis based on the principle of 'robust statistics' has been developed. Methods which are statistically robust are generally more insensitive to any departures from model assumptions and are particularly effective when analysing mixtures of probability distributions. For example, these methods enable the discretization of data into a group comprising inliers (i.e. the background noise) and another group comprising outliers (i.e. Bragg peaks). Our robust statistics algorithm has two key advantages, which are demonstrated through testing using multiple SX data sets. First, it is relatively insensitive to the exact value of the input parameters and hence requires minimal optimization. This is critical for the algorithm to be able to run unsupervised, allowing for automated selection or 'vetoing' of SX diffraction data. Secondly, the processing of individual diffraction patterns can be easily parallelized. This means that it can analyse data from multiple detector modules simultaneously, making it ideally suited to real‐time data processing. These characteristics mean that the robust peak finder (RPF) algorithm will be particularly beneficial for the new class of MHz X‐ray free‐electron laser sources, which generate large amounts of data in a short period of time. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
23. Current status and future opportunities for serial crystallography at MAX IV Laboratory.
- Author
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Shilova, Anastasya, Lebrette, Hugo, Aurelius, Oskar, Nan, Jie, Welin, Martin, Kovacic, Rebeka, Ghosh, Swagatha, Safari, Cecilia, Friel, Ross J., Milas, Mirko, Matej, Zdenek, Högbom, Martin, Brändén, Gisela, Kloos, Marco, Shoeman, Robert L., Doak, Bruce, Ursby, Thomas, Håkansson, Maria, Logan, Derek T., and Mueller, Uwe
- Subjects
FREE electron lasers ,CRYSTALLOGRAPHY ,SYNCHROTRON radiation ,X-ray crystallography ,X-ray lasers ,SILICON nitride - Abstract
Over the last decade, serial crystallography, a method to collect complete diffraction datasets from a large number of microcrystals delivered and exposed to an X‐ray beam in random orientations at room temperature, has been successfully implemented at X‐ray free‐electron lasers and synchrotron radiation facility beamlines. This development relies on a growing variety of sample presentation methods, including different fixed target supports, injection methods using gas‐dynamic virtual‐nozzle injectors and high‐viscosity extrusion injectors, and acoustic levitation of droplets, each with unique requirements. In comparison with X‐ray free‐electron lasers, increased beam time availability makes synchrotron facilities very attractive to perform serial synchrotron X‐ray crystallography (SSX) experiments. Within this work, the possibilities to perform SSX at BioMAX, the first macromolecular crystallography beamline at MAX IV Laboratory in Lund, Sweden, are described, together with case studies from the SSX user program: an implementation of a high‐viscosity extrusion injector to perform room temperature serial crystallography at BioMAX using two solid supports – silicon nitride membranes (Silson, UK) and XtalTool (Jena Bioscience, Germany). Future perspectives for the dedicated serial crystallography beamline MicroMAX at MAX IV Laboratory, which will provide parallel and intense micrometre‐sized X‐ray beams, are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
24. Well‐based crystallization of lipidic cubic phase microcrystals for serial X‐ray crystallography experiments.
- Author
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Andersson, Rebecka, Safari, Cecilia, Båth, Petra, Bosman, Robert, Shilova, Anastasya, Dahl, Peter, Ghosh, Swagatha, Dunge, Andreas, Kjeldsen-Jensen, Rasmus, Nan, Jie, Shoeman, Robert L., Kloos, Marco, Doak, R. Bruce, Mueller, Uwe, Neutze, Richard, and Brändén, Gisela
- Subjects
X-ray crystallography ,MEMBRANE proteins ,CRYSTALLIZATION ,PROTEIN structure ,CRYSTALLOGRAPHY ,STRUCTURAL dynamics ,X-ray diffraction - Abstract
Serial crystallography is having an increasing impact on structural biology. This emerging technique opens up new possibilities for studying protein structures at room temperature and investigating structural dynamics using time‐resolved X‐ray diffraction. A limitation of the method is the intrinsic need for large quantities of well ordered micrometre‐sized crystals. Here, a method is presented to screen for conditions that produce microcrystals of membrane proteins in the lipidic cubic phase using a well‐based crystallization approach. A key advantage over earlier approaches is that the progress of crystal formation can be easily monitored without interrupting the crystallization process. In addition, the protocol can be scaled up to efficiently produce large quantities of crystals for serial crystallography experiments. Using the well‐based crystallization methodology, novel conditions for the growth of showers of microcrystals of three different membrane proteins have been developed. Diffraction data are also presented from the first user serial crystallography experiment performed at MAX IV Laboratory. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
25. Crystallography on a chip – without the chip: sheet‐on‐sheet sandwich.
- Author
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Doak, R. Bruce, Nass Kovacs, Gabriela, Gorel, Alexander, Foucar, Lutz, Barends, Thomas R. M., Grünbein, Marie Luise, Hilpert, Mario, Kloos, Marco, Roome, Christopher M., Shoeman, Robert L., Stricker, Miriam, Tono, Kensuke, You, Daehyun, Ueda, Kiyoshi, Sherrell, Darren A., Owen, Robin L., and Schlichting, Ilme
- Subjects
SEMICONDUCTOR wafers ,CRYSTALLOGRAPHY ,ACQUISITION of data - Abstract
Crystallography chips are fixed‐target supports consisting of a film (for example Kapton) or wafer (for example silicon) that is processed using semiconductor‐microfabrication techniques to yield an array of wells or through‐holes in which single microcrystals can be lodged for raster‐scan probing. Although relatively expensive to fabricate, chips offer an efficient means of high‐throughput sample presentation for serial diffraction data collection at synchrotron or X‐ray free‐electron laser (XFEL) sources. Truly efficient loading of a chip (one microcrystal per well and no wastage during loading) is nonetheless challenging. The wells or holes must match the microcrystal size of interest, requiring that a large stock of chips be maintained. Raster scanning requires special mechanical drives to step the chip rapidly and with micrometre precision from well to well. Here, a `chip‐less' adaptation is described that essentially eliminates the challenges of loading and precision scanning, albeit with increased, yet still relatively frugal, sample usage. The device consists simply of two sheets of Mylar with the crystal solution sandwiched between them. This sheet‐on‐sheet (SOS) sandwich structure has been employed for serial femtosecond crystallography data collection with micrometre‐sized crystals at an XFEL. The approach is also well suited to time‐resolved pump–probe experiments, in particular for long time delays. The SOS sandwich enables measurements under XFEL beam conditions that would damage conventional chips, as documented here. The SOS sheets hermetically seal the sample, avoiding desiccation of the sample provided that the X‐ray beam does not puncture the sheets. This is the case with a synchrotron beam but not with an XFEL beam. In the latter case, desiccation, setting radially outwards from each punched hole, sets lower limits on the speed and line spacing of the raster scan. It is shown that these constraints are easily accommodated. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
26. Multi-wavelength anomalous diffraction de novo phasing using a two-colour X-ray free-electron laser with wide tunability.
- Author
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Gorel, Alexander, Koji Motomura, Hironobu Fukuzawa, Doak, R. Bruce, Grünbein, Marie Luise, Hilpert, Mario, Ichiro Inoue, Kloos, Marco, Kovácsová, Gabriela, Nango, Eriko, Nass, Karol, Roome, Christopher M., Shoeman, Robert L., Rie Tanaka, Kensuke Tono, Yasumasa Joti, Makina Yabashi, So Iwata, Foucar, Lutz, and Kiyoshi Ueda
- Subjects
FREE electron lasers ,X-ray lasers ,X-ray crystallography ,DIFFRACTION patterns ,LASER pulses ,RADIATION damage - Abstract
Serial femtosecond crystallography at X-ray free-electron lasers (XFELs) offers unprecedented possibilities for macromolecular structure determination of systems prone to radiation damage. However, de novo structure determination, i.e., without prior structural knowledge, is complicated by the inherent inaccuracy of serial femtosecond crystallography data. By its very nature, serial femtosecond crystallography data collection entails shot-to-shot fluctuations in X-ray wavelength and intensity as well as variations in crystal size and quality that must be averaged out. Hence, to obtain accurate diffraction intensities for de novo phasing, large numbers of diffraction patterns are required, and, concomitantly large volumes of sample and long X-ray free-electron laser beamtimes. Here we show that serial femtosecond crystallography data collected using simultaneous two-colour X-ray free-electron laser pulses can be used for multiple wavelength anomalous dispersion phasing. The phase angle determination is significantly more accurate than for single-colour phasing. We anticipate that two-colour multiple wavelength anomalous dispersion phasing will enhance structure determination of difficult-to-phase proteins at X-ray free-electron lasers. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
27. Crystal structure of human platelet phosphofructokinase-1 locked in an activated conformation.
- Author
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Kloos, Marco, Brüser, Antje, Kirchberger, Jürgen, Schöneberg, Torsten, and Sträter, Norbert
- Subjects
- *
PHOSPHOFRUCTOKINASE 1 , *CRYSTAL structure , *PROTEIN conformation , *GLYCOLYSIS , *CANCER invasiveness , *GENETIC mutation - Abstract
Phosphofructokinase-1 (Pfk) acts as the main control point of flux through glycolysis. It is involved in complex allosteric regulation and Pfk mutations have been linked to cancer development. Whereas the 3D structure and structural basis of allosteric regulation of prokaryotic Pfk has been studied in great detail, our knowledge about the molecular basis of the allosteric behaviour of the more complex mammalian Pfk is still very limited. To characterize the structural basis of allosteric regulation, the subunit interfaces and the functional consequences of modifications in Tarui's disease and cancer, we analysed the physiological homotetramer of human platelet Pfk at up to 2.67 Å resolution in two crystal forms. The crystallized enzyme is permanently activated by a deletion of the 22 Cterminal residues. Complex structures with ADP and fructose-6- phosphate (F6P) and with ATP suggest a role of three aspartates in the deprotonation of the OH-nucleophile of F6P and in the co-ordination of the catalytic magnesium ion. Changes at the dimer interface, including an asymmetry observed in both crystal forms, are the primary mechanism of allosteric regulation of Pfk by influencing the F6P-binding site. Whereas the nature of this conformational switch appears to be largely conserved in bacterial, yeast and mammalian Pfk, initiation of these changes differs significantly in eukaryotic Pfk. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
28. Crystallization and preliminary crystallographic analysis of human muscle phosphofructokinase, the main regulator of glycolysis.
- Author
-
Kloos, Marco, Brüser, Antje, Kirchberger, Jürgen, Schöneberg, Torsten, and Sträter, Norbert
- Subjects
- *
CRYSTALLIZATION , *PHOSPHOFRUCTOKINASES , *GLYCOLYSIS , *PROKARYOTES , *YEAST - Abstract
Whereas the three-dimensional structure and the structural basis of the allosteric regulation of prokaryotic 6-phosphofructokinases (Pfks) have been studied in great detail, knowledge of the molecular basis of the allosteric behaviour of the far more complex mammalian Pfks is still very limited. The human muscle isozyme was expressed heterologously in yeast cells and purified using a five-step purification protocol. Protein crystals suitable for diffraction experiments were obtained by the vapour-diffusion method. The crystals belonged to space group P6222 and diffracted to 6.0 Å resolution. The 3.2 Å resolution structure of rabbit muscle Pfk (rmPfk) was placed into the asymmetric unit and optimized by rigid-body and group B-factor refinement. Interestingly, the tetrameric enzyme dissociated into a dimer, similar to the situation observed in the structure of rmPfk. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
29. Molecular architecture and structural basis of allosteric regulation of eukaryotic phosphofructokinases.
- Author
-
Sträter, Norbert, Marek, Sascha, Kuettner, E. Bartholomeus, Kloos, Marco, Keim, Antje, Brüser, Antje, Kirchberger, Jürgen, and Schöneberg, Torsten
- Subjects
ALLOSTERIC regulation ,PHOSPHOFRUCTOKINASES ,ADENOSINE triphosphate ,GLYOXALASE ,CRYSTAL structure - Abstract
Eukaryotic ATP-dependent 6-phospho-fructokinases (Pfks) differ from their bacterial counterparts in a much more complex structural organization and allosteric regulation. Pichia pastoris Pfk (PpPfk) is, with ~1 MDa, the most complex and probably largest eukaryotic Pfk. We have determined the crystal structure of full-length PpPfk to 3.05 Å resolution in the T state. PpPfk forms a (α ßγ)
4 dodec-amer of D2 symmetry with dimensions of 161 X 157 X 233 Å mainly via interactions of the α chains. The N-terminal domains of the α and β chains have folds that are distantly related to glyoxalase I, but the active sites are no longer functional. Interestingly, these domains located at the 2 distal ends of this protein along the long 2-fold axis form a (αß)2 dimer as does the core Pfk domains; however, die domains are swapped across die tetramerization interface. In PpPfk, the unique γ subunit participates in oligomerization of the αß chains. This modulator protein was acquired from an ancient S-adenosylmethionine-dependent methyl-transferase. The identification of novel ATP binding sites, which do not correspond to the bacterial catalytic or effector binding sites, point to marked structural and functional differences between bacterial and eukaryotic Pfks. [ABSTRACT FROM AUTHOR]- Published
- 2011
- Full Text
- View/download PDF
30. Shock Damage Analysis in Serial Femtosecond Crystallography Data Collected at MHz X-ray Free-Electron Lasers.
- Author
-
Gorel, Alexander, Grünbein, Marie Luise, Bean, Richard, Bielecki, Johan, Hilpert, Mario, Cascella, Michele, Colletier, Jacques-Philippe, Fangohr, Hans, Foucar, Lutz, Hartmann, Elisabeth, Hunter, Mark S., Kirkwood, Henry, Kloos, Marco, Letrun, Romain, Michelat, Thomas, Shoeman, Robert L., Sztuk-Dambietz, Jolanta, Tetreau, Guillaume, Zimmermann, Herbert, and Mancuso, Adrian P.
- Subjects
X-ray lasers ,FREE electron lasers ,CRYSTALLOGRAPHY ,ULTRASONIC waves ,SHOCK waves ,ACQUISITION of data - Abstract
Serial femtosecond crystallography (SFX) data were recorded at the European X-ray free-electron laser facility (EuXFEL) with protein microcrystals delivered via a microscopic liquid jet. An XFEL beam striking such a jet may launch supersonic shock waves up the jet, compromising the oncoming sample. To investigate this efficiently, we employed a novel XFEL pulse pattern to nominally expose the sample to between zero and four shock waves before being probed. Analyzing hit rate, indexing rate, and resolution for diffraction data recorded at MHz pulse rates, we found no evidence of damage. Notably, however, this conclusion could only be drawn after careful identification and assimilation of numerous interrelated experimental factors, which we describe in detail. Failure to do so would have led to an erroneous conclusion. Femtosecond photography of the sample-carrying jet revealed critically different jet behavior from that of all homogeneous liquid jets studied to date in this manner. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
31. Functional Linkage of Adenine Nucleotide Binding Sites in Mammalian Muscle 6-Phosphofructokinase.
- Author
-
Brüser, Antje, Kirchberger, Jürgen, Kloos, Marco, Sträter, Norbert, and Schöneberg, Torsten
- Subjects
- *
PHOSPHOFRUCTOKINASES , *ALLOSTERIC enzymes , *GLYCOLYSIS , *PHOSPHORYLATION , *FRUCTOSE - Abstract
6-Phosphofructokinases (Pfk) are homo- and heterooligomeric, allosteric enzymes that catalyze one of the rate-limiting steps of the glycolysis: the phosphorylation of fructose 6-phosphate at position 1. Pfk activity is modulated by a number of regulators including adenine nucleotides. Recent crystal structures from eukaryotic Pfk revealed several adenine nucleotide binding sites. Herein, we determined the functional relevance of two adenine nucleotide binding sites through site-directed mutagenesis and enzyme kinetic studies. Subsequent characterization of Pfk mutants allowed the identification of the activating (AMP, ADP) and inhibitory (ATP, ADP) allosteric binding sites. Mutation of one binding site reciprocally influenced the allosteric regulation through nucleotides interacting with the other binding site. Such reciprocal linkage between the activating and inhibitory binding sites is in agreement with current models of allosteric enzyme regulation. Because the allosteric nucleotide binding sites in eukaryotic Pfk did not evolve from prokaryotic ancestors, reciprocal linkage of functionally opposed allosteric binding sites must have developed independently in prokaryotic and eukaryotic Pfk (convergent evolution). [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
32. 3D-printed sheet jet for stable megahertz liquid sample delivery at X-ray free-electron lasers.
- Author
-
Konold PE, You T, Bielecki J, Valerio J, Kloos M, Westphal D, Bellisario A, Varma Yenupuri T, Wollter A, Koliyadu JCP, Koua FHM, Letrun R, Round A, Sato T, Mészáros P, Monrroy L, Mutisya J, Bódizs S, Larkiala T, Nimmrich A, Alvarez R, Adams P, Bean R, Ekeberg T, Kirian RA, Martin AV, Westenhoff S, and Maia FRNC
- Abstract
X-ray free-electron lasers (XFELs) can probe chemical and biological reactions as they unfold with unprecedented spatial and temporal resolution. A principal challenge in this pursuit involves the delivery of samples to the X-ray interaction point in such a way that produces data of the highest possible quality and with maximal efficiency. This is hampered by intrinsic constraints posed by the light source and operation within a beamline environment. For liquid samples, the solution typically involves some form of high-speed liquid jet, capable of keeping up with the rate of X-ray pulses. However, conventional jets are not ideal because of radiation-induced explosions of the jet, as well as their cylindrical geometry combined with the X-ray pointing instability of many beamlines which causes the interaction volume to differ for every pulse. This complicates data analysis and contributes to measurement errors. An alternative geometry is a liquid sheet jet which, with its constant thickness over large areas, eliminates the problems related to X-ray pointing. Since liquid sheets can be made very thin, the radiation-induced explosion is reduced, boosting their stability. These are especially attractive for experiments which benefit from small interaction volumes such as fluctuation X-ray scattering and several types of spectroscopy. Although their use has increased for soft X-ray applications in recent years, there has not yet been wide-scale adoption at XFELs. Here, gas-accelerated liquid sheet jet sample injection is demonstrated at the European XFEL SPB/SFX nano focus beamline. Its performance relative to a conventional liquid jet is evaluated and superior performance across several key factors has been found. This includes a thickness profile ranging from hundreds of nanometres to 60 nm, a fourfold increase in background stability and favorable radiation-induced explosion dynamics at high repetition rates up to 1.13 MHz. Its minute thickness also suggests that ultrafast single-particle solution scattering is a possibility., (open access.)
- Published
- 2023
- Full Text
- View/download PDF
33. XFEL Microcrystallography of Self-Assembling Silver n -Alkanethiolates.
- Author
-
Aleksich M, Paley DW, Schriber EA, Linthicum W, Oklejas V, Mittan-Moreau DW, Kelly RP, Kotei PA, Ghodsi A, Sierra RG, Aquila A, Poitevin F, Blaschke JP, Vakili M, Milne CJ, Dall'Antonia F, Khakhulin D, Ardana-Lamas F, Lima F, Valerio J, Han H, Gallo T, Yousef H, Turkot O, Bermudez Macias IJ, Kluyver T, Schmidt P, Gelisio L, Round AR, Jiang Y, Vinci D, Uemura Y, Kloos M, Hunter M, Mancuso AP, Huey BD, Parent LR, Sauter NK, Brewster AS, and Hohman JN
- Abstract
New synthetic hybrid materials and their increasing complexity have placed growing demands on crystal growth for single-crystal X-ray diffraction analysis. Unfortunately, not all chemical systems are conducive to the isolation of single crystals for traditional characterization. Here, small-molecule serial femtosecond crystallography (smSFX) at atomic resolution (0.833 Å) is employed to characterize microcrystalline silver n- alkanethiolates with various alkyl chain lengths at X-ray free electron laser facilities, resolving long-standing controversies regarding the atomic connectivity and odd-even effects of layer stacking. smSFX provides high-quality crystal structures directly from the powder of the true unknowns, a capability that is particularly useful for systems having notoriously small or defective crystals. We present crystal structures of silver n -butanethiolate (C4), silver n- hexanethiolate (C6), and silver n -nonanethiolate (C9). We show that an odd-even effect originates from the orientation of the terminal methyl group and its role in packing efficiency. We also propose a secondary odd-even effect involving multiple mosaic blocks in the crystals containing even-numbered chains, identified by selected-area electron diffraction measurements. We conclude with a discussion of the merits of the synthetic preparation for the preparation of microdiffraction specimens and compare the long-range order in these crystals to that of self-assembled monolayers.
- Published
- 2023
- Full Text
- View/download PDF
34. Crystallographic Studies of Rhodopsins: Structure and Dynamics.
- Author
-
Grünbein ML, Kovacs GN, Kloos M, Gorel A, Doak RB, Shoeman RL, Barends TRM, and Schlichting I
- Subjects
- Crystallography, X-Ray, Isomerism, Protein Conformation, Lasers, Rhodopsin chemistry
- Abstract
Crystal structures have provided detailed insight in the architecture of rhodopsin photoreceptors. Of particular interest are the protein-chromophore interactions that govern the light-induced retinal isomerization and ultimately induce the large structural changes important for the various biological functions of the family. The reaction intermediates occurring along the rhodopsin photocycle have vastly differing lifetimes, from hundreds of femtoseconds to milliseconds. Detailed insight at high spatial and temporal resolution can be obtained by time-resolved crystallography using pump-probe approaches at X-ray free-electron lasers. Alternatively, cryotrapping approaches can be used. Both the approaches are described, including illumination and sample delivery. The importance of appropriate photoexcitation avoiding multiphoton absorption is stressed., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)
- Published
- 2022
- Full Text
- View/download PDF
35. BioMAX - the first macromolecular crystallography beamline at MAX IV Laboratory.
- Author
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Ursby T, Åhnberg K, Appio R, Aurelius O, Barczyk A, Bartalesi A, Bjelčić M, Bolmsten F, Cerenius Y, Doak RB, Eguiraun M, Eriksson T, Friel RJ, Gorgisyan I, Gross A, Haghighat V, Hennies F, Jagudin E, Norsk Jensen B, Jeppsson T, Kloos M, Lidon-Simon J, de Lima GMA, Lizatovic R, Lundin M, Milan-Otero A, Milas M, Nan J, Nardella A, Rosborg A, Shilova A, Shoeman RL, Siewert F, Sondhauss P, Talibov VO, Tarawneh H, Thånell J, Thunnissen M, Unge J, Ward C, Gonzalez A, and Mueller U
- Abstract
BioMAX is the first macromolecular crystallography beamline at the MAX IV Laboratory 3 GeV storage ring, which is the first operational multi-bend achromat storage ring. Due to the low-emittance storage ring, BioMAX has a parallel, high-intensity X-ray beam, even when focused down to 20 µm × 5 µm using the bendable focusing mirrors. The beam is tunable in the energy range 5-25 keV using the in-vacuum undulator and the horizontally deflecting double-crystal monochromator. BioMAX is equipped with an MD3 diffractometer, an ISARA high-capacity sample changer and an EIGER 16M hybrid pixel detector. Data collection at BioMAX is controlled using the newly developed MXCuBE3 graphical user interface, and sample tracking is handled by ISPyB. The computing infrastructure includes data storage and processing both at MAX IV and the Lund University supercomputing center LUNARC. With state-of-the-art instrumentation, a high degree of automation, a user-friendly control system interface and remote operation, BioMAX provides an excellent facility for most macromolecular crystallography experiments. Serial crystallography using either a high-viscosity extruder injector or the MD3 as a fixed-target scanner is already implemented. The serial crystallography activities at MAX IV Laboratory will be further developed at the microfocus beamline MicroMAX, when it comes into operation in 2022. MicroMAX will have a 1 µm × 1 µm beam focus and a flux up to 10
15 photons s-1 with main applications in serial crystallography, room-temperature structure determinations and time-resolved experiments., (open access.)- Published
- 2020
- Full Text
- View/download PDF
36. Two-colour serial femtosecond crystallography dataset from gadoteridol-derivatized lysozyme for MAD phasing.
- Author
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Gorel A, Motomura K, Fukuzawa H, Doak RB, Grünbein ML, Hilpert M, Inoue I, Kloos M, Nass Kovács G, Nango E, Nass K, Roome CM, Shoeman RL, Tanaka R, Tono K, Foucar L, Joti Y, Yabashi M, Iwata S, Ueda K, Barends TRM, and Schlichting I
- Abstract
We provide a detailed description of a gadoteridol-derivatized lysozyme (gadolinium lysozyme) two-colour serial femtosecond crystallography (SFX) dataset for multiple wavelength anomalous dispersion (MAD) structure determination. The data was collected at the Spring-8 Angstrom Compact free-electron LAser (SACLA) facility using a two-colour double-pulse beam to record two diffraction patterns simultaneously in one diffraction image. Gadolinium lysozyme was chosen as a well-established model system that has a very strong anomalous signal. Diffraction patterns from gadolinium lysozyme microcrystals were recorded to a resolution of 1.9 Å in both colours. This dataset is publicly available through the Coherent X-ray Imaging Data Bank (CXIDB) as a resource for algorithm development.
- Published
- 2017
- Full Text
- View/download PDF
37. Viscous hydrophilic injection matrices for serial crystallography.
- Author
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Kovácsová G, Grünbein ML, Kloos M, Barends TRM, Schlesinger R, Heberle J, Kabsch W, Shoeman RL, Doak RB, and Schlichting I
- Abstract
Serial (femtosecond) crystallography at synchrotron and X-ray free-electron laser (XFEL) sources distributes the absorbed radiation dose over all crystals used for data collection and therefore allows measurement of radiation damage prone systems, including the use of microcrystals for room-temperature measurements. Serial crystallography relies on fast and efficient exchange of crystals upon X-ray exposure, which can be achieved using a variety of methods, including various injection techniques. The latter vary significantly in their flow rates - gas dynamic virtual nozzle based injectors provide very thin fast-flowing jets, whereas high-viscosity extrusion injectors produce much thicker streams with flow rates two to three orders of magnitude lower. High-viscosity extrusion results in much lower sample consumption, as its sample delivery speed is commensurate both with typical XFEL repetition rates and with data acquisition rates at synchrotron sources. An obvious viscous injection medium is lipidic cubic phase (LCP) as it is used for in meso membrane protein crystallization. However, LCP has limited compatibility with many crystallization conditions. While a few other viscous media have been described in the literature, there is an ongoing need to identify additional injection media for crystal embedding. Critical attributes are reliable injection properties and a broad chemical compatibility to accommodate samples as heterogeneous and sensitive as protein crystals. Here, the use of two novel hydro-gels as viscous injection matrices is described, namely sodium carb-oxy-methyl cellulose and the thermo-reversible block polymer Pluronic F-127. Both are compatible with various crystallization conditions and yield acceptable X-ray background. The stability and velocity of the extruded stream were also analysed and the dependence of the stream velocity on the flow rate was measured. In contrast with previously characterized injection media, both new matrices afford very stable adjustable streams suitable for time-resolved measurements.
- Published
- 2017
- Full Text
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