Your search keyword '"S. Hauf"' showing total 76 results

1. Search for Solar Axions by the CERN Axion Solar Telescope withHe3Buffer Gas: Closing the Hot Dark Matter Gap

Author

M. Arik, S. Aune, K. Barth, A. Belov, S. Borghi, H. Bräuninger, G. Cantatore, J. M. Carmona, S. A. Cetin, J. I. Collar, E. Da Riva, T. Dafni, M. Davenport, C. Eleftheriadis, N. Elias, G. Fanourakis, E. Ferrer-Ribas, P. Friedrich, J. Galán, J. A. García, A. Gardikiotis, J. G. Garza, E. N. Gazis, T. Geralis, E. Georgiopoulou, I. Giomataris, S. Gninenko, H. Gómez, M. Gómez Marzoa, E. Gruber, T. Guthörl, R. Hartmann, S. Hauf, F. Haug, M. D. Hasinoff, D. H. H. Hoffmann, F. J. Iguaz, I. G. Irastorza, J. Jacoby, K. Jakovčić, M. Karuza, K. Königsmann, R. Kotthaus, M. Krčmar, M. Kuster, B. Lakić, P. M. Lang, J. M. Laurent, A. Liolios, A. Ljubičić, G. Luzón, S. Neff, T. Niinikoski, A. Nordt, T. Papaevangelou, M. J. Pivovaroff, G. Raffelt, H. Riege, A. Rodríguez, M. Rosu, J. Ruz, I. Savvidis, I. Shilon, P. S. Silva, S. K. Solanki, L. Stewart, A. Tomás, M. Tsagri, K. van Bibber, T. Vafeiadis, J. Villar, J. K. Vogel, S. C. Yildiz, and K. Zioutas

Published

2014

2. A MHz-Repetition-Rate Hard X-Ray Free-Electron Laser Driven by a Superconducting Linear Accelerator

Author

W. Decking, S. Abeghyan, P. Abramian, A. Abramsky, A. Aguirre, C. Albrecht, P. Alou, M. Altarelli, P. Altmann, K. Amyan, V. Anashin, E. Apostolov, K. Appel, D. Auguste, V. Ayvazyan, S. Baark, F. Babies, N. Baboi, P. Bak, V. Balandin, R. Baldinger, B. Baranasic, S. Barbanotti, O. Belikov, V. Belokurov, L. Belova, V. Belyakov, S. Berry, M. Bertucci, B. Beutner, A. Block, M. Blöcher, T. Böckmann, C. Bohm, M. Böhnert, V. Bondar, E. Bondarchuk, M. Bonezzi, P. Borowiec, C. Bösch, U. Bösenberg, A. Bosotti, R. Böspflug, M. Bousonville, E. Boyd, Y. Bozhko, A. Brand, J. Branlard, S. Briechle, F. Brinker, S. Brinker, R. Brinkmann, S. Brockhauser, O. Brovko, H. Brück, A. Brüdgam, L. Butkowski, T. Büttner, J. Calero, E. Castro-Carballo, G. Cattalanotto, J. Charrier, J. Chen, A. Cherepenko, V. Cheskidov, M. Chiodini, A. Chong, S. Choroba, M. Chorowski, D. Churanov, W. Cichalewski, M. Clausen, W. Clement, C. Cloué, J. A. Cobos, N. Coppola, S. Cunis, K. Czuba, M. Czwalinna, B. D’Almagne, J. Dammann, H. Danared, A. de Zubiaurre Wagner, A. Delfs, T. Delfs, F. Dietrich, T. Dietrich, M. Dohlus, M. Dommach, A. Donat, X. Dong, N. Doynikov, M. Dressel, M. Duda, P. Duda, H. Eckoldt, W. Ehsan, J. Eidam, F. Eints, C. Engling, U. Englisch, A. Ermakov, K. Escherich, J. Eschke, E. Saldin, M. Faesing, A. Fallou, M. Felber, M. Fenner, B. Fernandes, J. M. Fernández, S. Feuker, K. Filippakopoulos, K. Floettmann, V. Fogel, M. Fontaine, A. Francés, I. Freijo Martin, W. Freund, T. Freyermuth, M. Friedland, L. Fröhlich, M. Fusetti, J. Fydrych, A. Gallas, O. García, L. Garcia-Tabares, G. Geloni, N. Gerasimova, C. Gerth, P. Geßler, V. Gharibyan, M. Gloor, J. Głowinkowski, A. Goessel, Z. Gołębiewski, N. Golubeva, W. Grabowski, W. Graeff, A. Grebentsov, M. Grecki, T. Grevsmuehl, M. Gross, U. Grosse-Wortmann, J. Grünert, S. Grunewald, P. Grzegory, G. Feng, H. Guler, G. Gusev, J. L. Gutierrez, L. Hagge, M. Hamberg, R. Hanneken, E. Harms, I. Hartl, A. Hauberg, S. Hauf, J. Hauschildt, J. Hauser, J. Havlicek, A. Hedqvist, N. Heidbrook, F. Hellberg, D. Henning, O. Hensler, T. Hermann, A. Hidvégi, M. Hierholzer, H. Hintz, F. Hoffmann, Markus Hoffmann, Matthias Hoffmann, Y. Holler, M. Hüning, A. Ignatenko, M. Ilchen, A. Iluk, J. Iversen, M. Izquierdo, L. Jachmann, N. Jardon, U. Jastrow, K. Jensch, J. Jensen, M. Jeżabek, M. Jidda, H. Jin, N. Johansson, R. Jonas, W. Kaabi, D. Kaefer, R. Kammering, H. Kapitza, S. Karabekyan, S. Karstensen, K. Kasprzak, V. Katalev, D. Keese, B. Keil, M. Kholopov, M. Killenberger, B. Kitaev, Y. Klimchenko, R. Klos, L. Knebel, A. Koch, M. Koepke, S. Köhler, W. Köhler, N. Kohlstrunk, Z. Konopkova, A. Konstantinov, W. Kook, W. Koprek, M. Körfer, O. Korth, A. Kosarev, K. Kosiński, D. Kostin, Y. Kot, A. Kotarba, T. Kozak, V. Kozak, R. Kramert, M. Krasilnikov, A. Krasnov, B. Krause, L. Kravchuk, O. Krebs, R. Kretschmer, J. Kreutzkamp, O. Kröplin, K. Krzysik, G. Kube, H. Kuehn, N. Kujala, V. Kulikov, V. Kuzminych, D. La Civita, M. Lacroix, T. Lamb, A. Lancetov, M. Larsson, D. Le Pinvidic, S. Lederer, T. Lensch, D. Lenz, A. Leuschner, F. Levenhagen, Y. Li, J. Liebing, L. Lilje, T. Limberg, D. Lipka, B. List, J. Liu, S. Liu, B. Lorbeer, J. Lorkiewicz, H. H. Lu, F. Ludwig, K. Machau, W. Maciocha, C. Madec, C. Magueur, C. Maiano, I. Maksimova, K. Malcher, T. Maltezopoulos, E. Mamoshkina, B. Manschwetus, F. Marcellini, G. Marinkovic, T. Martinez, H. Martirosyan, W. Maschmann, M. Maslov, A. Matheisen, U. Mavric, J. Meißner, K. Meissner, M. Messerschmidt, N. Meyners, G. Michalski, P. Michelato, N. Mildner, M. Moe, F. Moglia, C. Mohr, S. Mohr, W. Möller, M. Mommerz, L. Monaco, C. Montiel, M. Moretti, I. Morozov, P. Morozov, D. Mross, J. Mueller, C. Müller, J. Müller, K. Müller, J. Munilla, A. Münnich, V. Muratov, O. Napoly, B. Näser, N. Nefedov, Reinhard Neumann, Rudolf Neumann, N. Ngada, D. Noelle, F. Obier, I. Okunev, J. A. Oliver, M. Omet, A. Oppelt, A. Ottmar, M. Oublaid, C. Pagani, R. Paparella, V. Paramonov, C. Peitzmann, J. Penning, A. Perus, F. Peters, B. Petersen, A. Petrov, I. Petrov, S. Pfeiffer, J. Pflüger, S. Philipp, Y. Pienaud, P. Pierini, S. Pivovarov, M. Planas, E. Pławski, M. Pohl, J. Polinski, V. Popov, S. Prat, J. Prenting, G. Priebe, H. Pryschelski, K. Przygoda, E. Pyata, B. Racky, A. Rathjen, W. Ratuschni, S. Regnaud-Campderros, K. Rehlich, D. Reschke, C. Robson, J. Roever, M. Roggli, J. Rothenburg, E. Rusiński, R. Rybaniec, H. Sahling, M. Salmani, L. Samoylova, D. Sanzone, F. Saretzki, O. Sawlanski, J. Schaffran, H. Schlarb, M. Schlösser, V. Schlott, C. Schmidt, F. Schmidt-Foehre, M. Schmitz, M. Schmökel, T. Schnautz, E. Schneidmiller, M. Scholz, B. Schöneburg, J. Schultze, C. Schulz, A. Schwarz, J. Sekutowicz, D. Sellmann, E. Semenov, S. Serkez, D. Sertore, N. Shehzad, P. Shemarykin, L. Shi, M. Sienkiewicz, D. Sikora, M. Sikorski, A. Silenzi, C. Simon, W. Singer, X. Singer, H. Sinn, K. Sinram, N. Skvorodnev, P. Smirnow, T. Sommer, A. Sorokin, M. Stadler, M. Steckel, B. Steffen, N. Steinhau-Kühl, F. Stephan, M. Stodulski, M. Stolper, A. Sulimov, R. Susen, J. Świerblewski, C. Sydlo, E. Syresin, V. Sytchev, J. Szuba, N. Tesch, J. Thie, A. Thiebault, K. Tiedtke, D. Tischhauser, J. Tolkiehn, S. Tomin, F. Tonisch, F. Toral, I. Torbin, A. Trapp, D. Treyer, G. Trowitzsch, T. Trublet, T. Tschentscher, F. Ullrich, M. Vannoni, P. Varela, G. Varghese, G. Vashchenko, M. Vasic, C. Vazquez-Velez, A. Verguet, S. Vilcins-Czvitkovits, R. Villanueva, B. Visentin, M. Viti, E. Vogel, E. Volobuev, R. Wagner, N. Walker, T. Wamsat, H. Weddig, G. Weichert, H. Weise, R. Wenndorf, M. Werner, R. Wichmann, C. Wiebers, M. Wiencek, T. Wilksen, I. Will, L. Winkelmann, M. Winkowski, K. Wittenburg, A. Witzig, P. Wlk, T. Wohlenberg, M. Wojciechowski, F. Wolff-Fabris, G. Wrochna, K. Wrona, M. Yakopov, B. Yang, F. Yang, M. Yurkov, I. Zagorodnov, P. Zalden, A. Zavadtsev, D. Zavadtsev, A. Zhirnov, A. Zhukov, V. Ziemann, A. Zolotov, N. Zolotukhina, F. Zummack, D. Zybin, Laboratoire de l'Accélérateur Linéaire (LAL), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Commissariat à l'énergie atomique et aux énergies alternatives (CEA), and Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], Astrophysics::High Energy Astrophysical Phenomena, 02 engineering and technology, 7. Clean energy, 01 natural sciences, Acceleration voltage, Linear particle accelerator, law.invention, 010309 optics, Optics, law, 0103 physical sciences, ddc:530, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Physics, business.industry, Free-electron laser, Undulator, 021001 nanoscience & nanotechnology, Laser, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Cathode ray, Physics::Accelerator Physics, 0210 nano-technology, business, Lasing threshold, Beam (structure)

Abstract

Nature photonics 14(6), 391 - 397 (2020). doi:10.1038/s41566-020-0607-z, The European XFEL is a hard X-ray free-electron laser (FEL) based on a high-electron-energy superconducting linear accelerator. The superconducting technology allows for the acceleration of many electron bunches within one radio-frequency pulse of the accelerating voltage and, in turn, for the generation of a large number of hard X-ray pulses. We report on the performance of the European XFEL accelerator with up to 5,000 electron bunches per second and demonstrating a full energy of 17.5 GeV. Feedback mechanisms enable stabilization of the electron beam delivery at the FEL undulator in space and time. The measured FEL gain curve at 9.3 keV is in good agreement with predictions for saturated FEL radiation. Hard X-ray lasing was achieved between 7 keV and 14 keV with pulse energies of up to 2.0 mJ. Using the high repetition rate, an FEL beam with 6 W average power was created., Published by Nature Publ. Group, London [u.a.]

Published

2020

3. Author Correction: A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator

Author

W. Decking, S. Abeghyan, P. Abramian, A. Abramsky, A. Aguirre, C. Albrecht, P. Alou, M. Altarelli, P. Altmann, K. Amyan, V. Anashin, E. Apostolov, K. Appel, D. Auguste, V. Ayvazyan, S. Baark, F. Babies, N. Baboi, P. Bak, V. Balandin, R. Baldinger, B. Baranasic, S. Barbanotti, O. Belikov, V. Belokurov, L. Belova, V. Belyakov, S. Berry, M. Bertucci, B. Beutner, A. Block, M. Blöcher, T. Böckmann, C. Bohm, M. Böhnert, V. Bondar, E. Bondarchuk, M. Bonezzi, P. Borowiec, C. Bösch, U. Bösenberg, A. Bosotti, R. Böspflug, M. Bousonville, E. Boyd, Y. Bozhko, A. Brand, J. Branlard, S. Briechle, F. Brinker, S. Brinker, R. Brinkmann, S. Brockhauser, O. Brovko, H. Brück, A. Brüdgam, L. Butkowski, T. Büttner, J. Calero, E. Castro-Carballo, G. Cattalanotto, J. Charrier, J. Chen, A. Cherepenko, V. Cheskidov, M. Chiodini, A. Chong, S. Choroba, M. Chorowski, D. Churanov, W. Cichalewski, M. Clausen, W. Clement, C. Cloué, J. A. Cobos, N. Coppola, S. Cunis, K. Czuba, M. Czwalinna, B. D’Almagne, J. Dammann, H. Danared, A. de Zubiaurre Wagner, A. Delfs, T. Delfs, F. Dietrich, T. Dietrich, M. Dohlus, M. Dommach, A. Donat, X. Dong, N. Doynikov, M. Dressel, M. Duda, P. Duda, H. Eckoldt, W. Ehsan, J. Eidam, F. Eints, C. Engling, U. Englisch, A. Ermakov, K. Escherich, J. Eschke, E. Saldin, M. Faesing, A. Fallou, M. Felber, M. Fenner, B. Fernandes, J. M. Fernández, S. Feuker, K. Filippakopoulos, K. Floettmann, V. Fogel, M. Fontaine, A. Francés, I. Freijo Martin, W. Freund, T. Freyermuth, M. Friedland, L. Fröhlich, M. Fusetti, J. Fydrych, A. Gallas, O. García, L. Garcia-Tabares, G. Geloni, N. Gerasimova, C. Gerth, P. Geßler, V. Gharibyan, M. Gloor, J. Głowinkowski, A. Goessel, Z. Gołębiewski, N. Golubeva, W. Grabowski, W. Graeff, A. Grebentsov, M. Grecki, T. Grevsmuehl, M. Gross, U. Grosse-Wortmann, J. Grünert, S. Grunewald, P. Grzegory, G. Feng, H. Guler, G. Gusev, J. L. Gutierrez, L. Hagge, M. Hamberg, R. Hanneken, E. Harms, I. Hartl, A. Hauberg, S. Hauf, J. Hauschildt, J. Hauser, J. Havlicek, A. Hedqvist, N. Heidbrook, F. Hellberg, D. Henning, O. Hensler, T. Hermann, A. Hidvégi, M. Hierholzer, H. Hintz, F. Hoffmann, Markus Hoffmann, Matthias Hoffmann, Y. Holler, M. Hüning, A. Ignatenko, M. Ilchen, A. Iluk, J. Iversen, M. Izquierdo, L. Jachmann, N. Jardon, U. Jastrow, K. Jensch, J. Jensen, M. Jeżabek, M. Jidda, H. Jin, N. Johansson, R. Jonas, W. Kaabi, D. Kaefer, R. Kammering, H. Kapitza, S. Karabekyan, S. Karstensen, K. Kasprzak, V. Katalev, D. Keese, B. Keil, M. Kholopov, M. Killenberger, B. Kitaev, Y. Klimchenko, R. Klos, L. Knebel, A. Koch, M. Koepke, S. Köhler, W. Köhler, N. Kohlstrunk, Z. Konopkova, A. Konstantinov, W. Kook, W. Koprek, M. Körfer, O. Korth, A. Kosarev, K. Kosiński, D. Kostin, Y. Kot, A. Kotarba, T. Kozak, V. Kozak, R. Kramert, M. Krasilnikov, A. Krasnov, B. Krause, L. Kravchuk, O. Krebs, R. Kretschmer, J. Kreutzkamp, O. Kröplin, K. Krzysik, G. Kube, H. Kuehn, N. Kujala, V. Kulikov, V. Kuzminych, D. La Civita, M. Lacroix, T. Lamb, A. Lancetov, M. Larsson, D. Le Pinvidic, S. Lederer, T. Lensch, D. Lenz, A. Leuschner, F. Levenhagen, Y. Li, J. Liebing, L. Lilje, T. Limberg, D. Lipka, B. List, J. Liu, S. Liu, B. Lorbeer, J. Lorkiewicz, H. H. Lu, F. Ludwig, K. Machau, W. Maciocha, C. Madec, C. Magueur, C. Maiano, I. Maksimova, K. Malcher, T. Maltezopoulos, E. Mamoshkina, B. Manschwetus, F. Marcellini, G. Marinkovic, T. Martinez, H. Martirosyan, W. Maschmann, M. Maslov, A. Matheisen, U. Mavric, J. Meißner, K. Meissner, M. Messerschmidt, N. Meyners, G. Michalski, P. Michelato, N. Mildner, M. Moe, F. Moglia, C. Mohr, S. Mohr, W. Möller, M. Mommerz, L. Monaco, C. Montiel, M. Moretti, I. Morozov, P. Morozov, D. Mross, J. Mueller, C. Müller, J. Müller, K. Müller, J. Munilla, A. Münnich, V. Muratov, O. Napoly, B. Näser, N. Nefedov, Reinhard Neumann, Rudolf Neumann, N. Ngada, D. Noelle, F. Obier, I. Okunev, J. A. Oliver, M. Omet, A. Oppelt, A. Ottmar, M. Oublaid, C. Pagani, R. Paparella, V. Paramonov, C. Peitzmann, J. Penning, A. Perus, F. Peters, B. Petersen, A. Petrov, I. Petrov, S. Pfeiffer, J. Pflüger, S. Philipp, Y. Pienaud, P. Pierini, S. Pivovarov, M. Planas, E. Pławski, M. Pohl, J. Polinski, V. Popov, S. Prat, J. Prenting, G. Priebe, H. Pryschelski, K. Przygoda, E. Pyata, B. Racky, A. Rathjen, W. Ratuschni, S. Regnaud-Campderros, K. Rehlich, D. Reschke, C. Robson, J. Roever, M. Roggli, J. Rothenburg, E. Rusiński, R. Rybaniec, H. Sahling, M. Salmani, L. Samoylova, D. Sanzone, F. Saretzki, O. Sawlanski, J. Schaffran, H. Schlarb, M. Schlösser, V. Schlott, C. Schmidt, F. Schmidt-Foehre, M. Schmitz, M. Schmökel, T. Schnautz, E. Schneidmiller, M. Scholz, B. Schöneburg, J. Schultze, C. Schulz, A. Schwarz, J. Sekutowicz, D. Sellmann, E. Semenov, S. Serkez, D. Sertore, N. Shehzad, P. Shemarykin, L. Shi, M. Sienkiewicz, D. Sikora, M. Sikorski, A. Silenzi, C. Simon, W. Singer, X. Singer, H. Sinn, K. Sinram, N. Skvorodnev, P. Smirnow, T. Sommer, A. Sorokin, M. Stadler, M. Steckel, B. Steffen, N. Steinhau-Kühl, F. Stephan, M. Stodulski, M. Stolper, A. Sulimov, R. Susen, J. Świerblewski, C. Sydlo, E. Syresin, V. Sytchev, J. Szuba, N. Tesch, J. Thie, A. Thiebault, K. Tiedtke, D. Tischhauser, J. Tolkiehn, S. Tomin, F. Tonisch, F. Toral, I. Torbin, A. Trapp, D. Treyer, G. Trowitzsch, T. Trublet, T. Tschentscher, F. Ullrich, M. Vannoni, P. Varela, G. Varghese, G. Vashchenko, M. Vasic, C. Vazquez-Velez, A. Verguet, S. Vilcins-Czvitkovits, R. Villanueva, B. Visentin, M. Viti, E. Vogel, E. Volobuev, R. Wagner, N. Walker, T. Wamsat, H. Weddig, G. Weichert, H. Weise, R. Wenndorf, M. Werner, R. Wichmann, C. Wiebers, M. Wiencek, T. Wilksen, I. Will, L. Winkelmann, M. Winkowski, K. Wittenburg, A. Witzig, P. Wlk, T. Wohlenberg, M. Wojciechowski, F. Wolff-Fabris, G. Wrochna, K. Wrona, M. Yakopov, B. Yang, F. Yang, M. Yurkov, I. Zagorodnov, P. Zalden, A. Zavadtsev, D. Zavadtsev, A. Zhirnov, A. Zhukov, V. Ziemann, A. Zolotov, N. Zolotukhina, F. Zummack, and D. Zybin

Subjects

Superconductivity, Optics, Materials science, Repetition (rhetorical device), business.industry, X-ray, Free-electron laser, business, Atomic and Molecular Physics, and Optics, Linear particle accelerator, Electronic, Optical and Magnetic Materials

Published

2020

4. A clinical interview assessing cancer patients' spiritual needs and preferences

Author

C. Riedner, Gian Domenico Borasio, S. Hauf, Eckhard Frick, and Martin Johannes Fegg

Subjects

Adult, Male, Clinical interview, Coping (psychology), medicine.medical_specialty, Interview, business.industry, Disease, Middle Aged, Religious community, Oncology, Patient Satisfaction, Neoplasms, Family medicine, Adaptation, Psychological, Interview, Psychological, Spirituality, medicine, Humans, Female, Psychiatry, business, Needs Assessment

Abstract

We conducted a phase-I study to test the practicability and usefulness of a short (15-30 min) clinical interview for the assessment of cancer patients' spiritual needs and preferences. Physicians assessed the spirituality of their patients using the semi-structured interview SPIR. The interview focuses on the meaning and effect of spirituality in the patient's life and coping system. Visual Analogue Scales (VAS) and Questionnaires were completed following the interview for rating whether SPIR had been helpful or distressing, and to what extent spirituality seemed important in the patient's life and in coping with cancer disease. Thirty oncological outpatients who all agreed to participate were included. The majority wanted their doctor to be interested in their spiritual orientation. Patients and interviewing physicians evaluated the SPIR interview as helpful (patients mean 6.76 +/- 2.5, physicians 7.31 +/- 1.9, scale from 0 to 10) and non-distressing (patients 1.29 +/- 2.5, physicians 1.15 +/- 1.3, scale from 0 to 10). Following the interview, doctors were able to correctly gauge the importance of spirituality for their patients. Patients who considered the interview as very helpful (VAS > 7) were more often female (P = 0.002). There were no differences between patients who evaluated the SPIR as very helpful and those who did not, as far as diagnosis, educational level or belonging to a religious community were concerned. The present study shows that a short clinical assessment of cancer patients' spirituality is well received by both patients and physicians. The SPIR interview may be a helpful tool for addressing the spiritual domain, planning referrals and ultimately strengthening the patient-physician relationship.

Published

2006

5. Lattice location and magnetism of Fe and Sc impurities in Gd and Tb single crystals

Author

D. Jones, D. Riegel, William D. Brewer, S. Hauf, J. Kapoor, and A. Metz

Subjects

Magnetization, Angular distribution, Materials science, Condensed matter physics, Mechanics of Materials, Magnetism, Impurity, Mechanical Engineering, Interstitial defect, Lattice (order), Materials Chemistry, Metals and Alloys, Hyperfine structure

Abstract

We used the in-beam TD perturbed angular distribution (PAD) technique to investigate the magnetism and lattice location of dilute impurities of Sc and Fe implanted into single-crystal Gd and Tb host lattices. Sc is observed to implant on a unique site, which is almost certainly substitutional. The T = 0 hyperfine field B hf (0) is found to be −5.22(1) T in Gd host and −3.91(3) T in Tb host, both values being corrected for demagnetizing and Lorentz fields. At higher temperatures, the hyperfine fields deviate from the host lattice magnetization M(B,T) ; the local susceptibilities however follow Curie-Weiss laws similar to those of the hosts. Fe is found to implant onto two lattice sites, which can be identified by comparison with the similar host Y as substitutional and interstitial sites. The hyperfine fields are small and positive on both sites, but distinctly larger on the substitutional site. Again, Curie-Weiss behavior is found for the local susceptibilities up to 500 K in both hosts. Fe signals are unobservable below T C , probably owing to line broadening.

Published

1995

6. Status of the Simbol-X Background Simulation Activities

Author

C. Tenzer, U. Briel, A. Bulgarelli, R. Chipaux, A. Claret, G. Cusumano, E. Dell’Orto, V. Fioretti, L. Foschini, S. Hauf, E. Kendziorra, M. Kuster, P. Laurent, A. Tiengo, Jéro^me Rodriguez, Phillippe Ferrando, Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, APC - Astrophysique des Hautes Energies (APC - AHE), AstroParticule et Cosmologie (APC (UMR_7164)), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Dipartimento di Astronomia, Universita degli Studi di Bologna, Università di Bologna [Bologna] (UNIBO)-Università di Bologna [Bologna] (UNIBO), Jérôme Rodriguez, Phillippe Ferrando, SIMBOL-X, Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Dipartimento di Astronomia, Universita degli Studi di Bologna, Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO)-Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO)

Subjects

[PHYS.ASTR.HE]Physics [physics]/Astrophysics [astro-ph]/High Energy Astrophysical Phenomena [astro-ph.HE], Physics::Instrumentation and Detectors, Cosmic background radiation, Cosmic ray, 01 natural sciences, 030218 nuclear medicine & medical imaging, X-ray, 03 medical and health sciences, 0302 clinical medicine, Optics, cosmic rays, Apertures, muon, Imaging detectors and sensors, 0103 physical sciences, Neutrino, Physics, COSMIC cancer database, 010308 nuclear & particles physics, business.industry, [SDU.ASTR.HE]Sciences of the Universe [physics]/Astrophysics [astro-ph]/High Energy Astrophysical Phenomena [astro-ph.HE], Detector, Astrophysics::Instrumentation and Methods for Astrophysics, pion, and other elementary particles, Dead time, Cardinal point, Electromagnetic shielding, business, collimators

Abstract

ISBN: 978-0-07354-0662-9; International audience; The Simbol-X background simulation group is working towards a simulation based background and mass model which can be used before and during the mission. Using the Geant4 toolkit, a Monte-Carlo code to simulate the detector background of the Simbol-X focal plane instrument has been developed with the aim to optimize the design of the instrument. Achieving an overall low instrument background has direct impact on the sensitivity of Simbol-X and thus will be crucial for the success of the mission. We present results of recent simulation studies concerning the shielding of the detectors with respect to the diffuse cosmic hard X-ray background and to the cosmic-ray proton induced background. Besides estimates of the level and spectral shape of the remaining background expected in the low and high energy detector, also anti-coincidence rates and resulting detector dead time predictions are discussed.

Published

2008

7. Experimental and theoretical study of extremely dilute Sc and Fe impurities in Gd and Tb

Author

D. Jones, A. Metz, William D. Brewer, J. Kapoor, D. Riegel, Yi Li, Sonia Frota-Pessôa, and S. Hauf

Subjects

Physics, Mössbauer effect, Condensed matter physics, Impurity, Kondo effect, Atomic physics

Published

1995

8. Search for Solar Axions by the CERN Axion Solar Telescope with He3 Buffer Gas: Closing the Hot Dark Matter Gap

Author

Arik, M., Aune, S., Barth, K., Belov, A., Borghi, S., Brauninger, H., Cantatore, Giovanni, Carmona, J. M., Cetin, S. A., Da Riva, J. I. Collar E., Dafni, T., Davenport, M., Eleftheriadis, C., Elias, N., Fanourakis, G., Ferrer Ribas, E., Friedrich, P., Galan, J., Garcia, J. A., Gardikiotis, A., Garza, J. G., Gazis, E. N., Geralis, T., Georgiopoulou, E., Giomataris, I., Gninenko, S., Gomez, H., Gomez Marzoa, M., Gruber, E., Guthorl, T., Hartmann, R., Hauf, S., Haug, F., Hasinoff, M. D., Hoffmann, D. H. H., Iguaz, F. J., Irastorza, I. G., Jacoby, J., Jakovcic, K., Karuza, M., Konigsmann, K., Kotthaus, R., Krcmar, M., Kuster, M., Lakic, B., Lang, P. M., Laurent, J. M., Liolios, A., Ljubicic, A., Lozza, V., Luzon, G., Neff, S., Niinikoski, T., Nordt, A., Papaevangelou, T., Pivovaroff, M. J., Raffelt, G., Riege, H., Rodriguez, A., Rosu, M., Ruz, J., Savvidis, I., Shilon, I., Silva, P. S., Solanki, S. K., Stewart, L., Tomas, A., Tsagri, M., van Bibber, K., Vafeiadis, T., Villar, J., Vogel, J. K., Yildiz, S. C., Zioutas, K., M., Arik, S., Aune, K., Barth, A., Belov, S., Borghi, H., Brauninger, Cantatore, Giovanni, J. M., Carmona, S. A., Cetin, J. I. Collar E., Da Riva, T., Dafni, M., Davenport, C., Eleftheriadi, N., Elia, G., Fanouraki, E., Ferrer Riba, P., Friedrich, J., Galan, J. A., Garcia, A., Gardikioti, J. G., Garza, E. N., Gazi, T., Gerali, E., Georgiopoulou, I., Giomatari, S., Gninenko, H., Gomez, M., Gomez Marzoa, E., Gruber, T., Guthorl, R., Hartmann, S., Hauf, F., Haug, M. D., Hasinoff, D. H. H., Hoffmann, F. J., Iguaz, I. G., Irastorza, J., Jacoby, K., Jakovcic, M., Karuza, K., Konigsmann, R., Kotthau, M., Krcmar, M., Kuster, B., Lakic, P. M., Lang, J. M., Laurent, A., Liolio, A., Ljubicic, V., Lozza, G., Luzon, S., Neff, T., Niinikoski, A., Nordt, T., Papaevangelou, M. J., Pivovaroff, G., Raffelt, H., Riege, A., Rodriguez, M., Rosu, J., Ruz, I., Savvidi, I., Shilon, P. S., Silva, S. K., Solanki, L., Stewart, A., Toma, M., Tsagri, K., van Bibber, T., Vafeiadi, J., Villar, J. K., Vogel, S. C., Yildiz, and K., Zioutas

Subjects

solar axions, dark matter, Photon detection, solar axion, Physics::Instrumentation and Detectors, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics

Abstract

The CERN Axion Solar Telescope (CAST) has finished its search for solar axions with 3^He buffer gas, covering the search range 0.64 eV < m_a

Published

2014

9. Rapid Enzymatic Detection of Shiga-Toxin-Producing E. coli Using Fluorescence-Labeled Oligonucleotide Substrates.

Author

Ramming I, Lang C, Hauf S, Krüger M, Worbs S, Peukert C, Fruth A, Dorner BG, Brönstrup M, and Flieger A

Subjects

Humans, Escherichia coli Infections microbiology, Oligonucleotides, Fluorescent Dyes chemistry, Fluorescence Resonance Energy Transfer methods, Shiga Toxin metabolism, Shiga Toxin genetics, Shiga-Toxigenic Escherichia coli genetics

Abstract

Shiga-toxin-producing Escherichia coli (STEC) are important human pathogens causing diarrhea, hemorrhagic colitis, and severe hemolytic uremic syndrome. Timely detection of the multifaceted STEC is of high importance but is challenging and labor-intensive. An easy-to-perform rapid test would be a tremendous advance. Here, the major STEC virulence factor Shiga toxins (Stx), RNA- N -glycosidases targeting the sarcin ricin loop (SRL) of 28S rRNA, was used for detection. We designed synthetic FRET-based ssDNA SRL substrates, which conferred a fluorescence signal after cleavage by Stx. Optimal results using bacterial culture supernatants or single colonies were achieved for substrate StxSense 4 following 30 to 60 min incubation. Stx1 and Stx2 subtypes, diverse STEC serotypes, and Shigella were detected. Within a proof-of-principle study, a total of 94 clinical strains were tested, comprising 65 STEC, 11 Shigella strains, and 18 strains of other enteropathogenic bacteria without Stx. In conclusion, the assay offers rapid and facile STEC detection based on a real-time readout for Stx activity. Therefore, it may improve STEC risk evaluation, therapy decisions, outbreak, and source detection and simplify research for antimicrobials.

Published

2024

10. Clinical Effects of Glucagon-Like Peptide-1 Agonist Use for Weight Loss in Women With Polycystic Ovary Syndrome: A Scoping Review.

Author

Frangie Machado M, Shunk T, Hansen G, Harvey C, Fulford B, Hauf S, Schuh O, Kaldas M, Arcaroli E, Ortiz J, and De Gaetano J

Abstract

Glucagon-like peptide-1 (GLP-1) is a gastrointestinal regulatory hormone that stimulates insulin release from the pancreas. While GLP-1 receptor agonists (GLP-1 RAs) have traditionally been utilized to address insulin resistance, their potential application in treating polycystic ovary syndrome (PCOS) has recently garnered attention. This study aimed to investigate the therapeutic efficacy of GLP-1 RAs use for weight loss in women diagnosed with PCOS. We conducted a scoping review following the Joanna Briggs Institute (JBI) methodology and adhering to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Our investigation delved into the clinical effects experienced by women of diverse racial and ethnic backgrounds with PCOS who were prescribed GLP-1 RAs for weight loss. Peer-reviewed articles from Ovid Medline, Web of Science, CINAHL, Cochrane CENTRAL, SCOPUS, and ClinicalTrials.gov spanning from 2012 to 2023 were scrutinized. After eliminating duplicates, 811 articles were identified, and ultimately, eight met the eligibility criteria for inclusion. All studies were published in English and exhibited wide geographic diversity. The included studies uniformly reported reductions in weight and body mass index (BMI) among patients who were prescribed GLP-1 RAs, specifically liraglutide or exenatide. Additionally, evidence pointed towards improvements in anthropometric parameters (MF1) (including total body weight, BMI, reduction in waist circumference, and total fat percentage), glucose homeostasis, cardiovascular inflammatory markers (midregional pro-atrial natriuretic peptide (MR-proANP) and mid-regional pro-adrenomedullin (MR-proADM)), rates of pregnancy, and menstrual regulation. However, findings regarding the impact of GLP-1 RAs on lipid profiles were inconsistent. Although some short-term adverse effects were noted, long-term effects of GLP-1 RAs use remain undetermined. GLP-1 RA use demonstrated promising clinical outcomes for women with PCOS, including reduced BMI, improved metabolic parameters, menstrual regularity, and increased rates of natural pregnancy. While the current evidence is encouraging, further research is warranted to elucidate both short- and long-term adverse effects of GLP-1 RA therapy for PCOS., Competing Interests: Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Frangie Machado et al.)

Published

2024

11. Mitochondrial complex I inhibition triggers NAD + -independent glucose oxidation via successive NADPH formation, "futile" fatty acid cycling, and FADH 2 oxidation.

Author

Abrosimov R, Baeken MW, Hauf S, Wittig I, Hajieva P, Perrone CE, and Moosmann B

Subjects

Animals, Rats, Hypoglycemic Agents pharmacology, NAD metabolism, Mitochondria metabolism, Metformin pharmacology, Male, Oxidation-Reduction, Fatty Acids metabolism, Glucose metabolism, NADP metabolism, Electron Transport Complex I metabolism

Abstract

Inhibition of mitochondrial complex I (NADH dehydrogenase) is the primary mechanism of the antidiabetic drug metformin and various unrelated natural toxins. Complex I inhibition can also be induced by antidiabetic PPAR agonists, and it is elicited by methionine restriction, a nutritional intervention causing resistance to diabetes and obesity. Still, a comprehensible explanation to why complex I inhibition exerts antidiabetic properties and engenders metabolic inefficiency is missing. To evaluate this issue, we have systematically reanalyzed published transcriptomic datasets from MPP-treated neurons, metformin-treated hepatocytes, and methionine-restricted rats. We found that pathways leading to NADPH formation were widely induced, together with anabolic fatty acid biosynthesis, the latter appearing highly paradoxical in a state of mitochondrial impairment. However, concomitant induction of catabolic fatty acid oxidation indicated that complex I inhibition created a "futile" cycle of fatty acid synthesis and degradation, which was anatomically distributed between adipose tissue and liver in vivo. Cofactor balance analysis unveiled that such cycling would indeed be energetically futile (-3 ATP per acetyl-CoA), though it would not be redox-futile, as it would convert NADPH into respirable FADH 2 without any net production of NADH. We conclude that inhibition of NADH dehydrogenase leads to a metabolic shift from glycolysis and the citric acid cycle (both generating NADH) towards the pentose phosphate pathway, whose product NADPH is translated 1:1 into FADH 2 by fatty acid cycling. The diabetes-resistant phenotype following hepatic and intestinal complex I inhibition is attributed to FGF21- and GDF15-dependent fat hunger signaling, which remodels adipose tissue into a glucose-metabolizing organ., (© 2024. The Author(s).)

Published

2024

12. Correction to "Analysis of the Sequence Preference of Saporin by Deep Sequencing".

Author

Hauf S, Rotrattanadumrong R, and Yokobayashi Y

Published

2024

13. The minimal intrinsic stochasticity of constitutively expressed eukaryotic genes is sub-Poissonian.

Author

Weidemann DE, Holehouse J, Singh A, Grima R, and Hauf S

Subjects

Cell Division, RNA, Messenger genetics, RNA, Messenger metabolism, Cytoplasm metabolism, Eukaryota metabolism, Eukaryotic Cells metabolism

Abstract

Gene expression inherently gives rise to stochastic variation ("noise") in the production of gene products. Minimizing noise is crucial for ensuring reliable cellular functions. However, noise cannot be suppressed below a certain intrinsic limit. For constitutively expressed genes, this limit is typically assumed to be Poissonian noise, wherein the variance in mRNA numbers is equal to their mean. Here, we demonstrate that several cell division genes in fission yeast exhibit mRNA variances significantly below this limit. The reduced variance can be explained by a gene expression model incorporating multiple transcription and mRNA degradation steps. Notably, in this sub-Poissonian regime, distinct from Poissonian or super-Poissonian regimes, cytoplasmic noise is effectively suppressed through a higher mRNA export rate. Our findings redefine the lower limit of eukaryotic gene expression noise and uncover molecular requirements for achieving ultralow noise, which is expected to be important for vital cellular functions.

Published

2023

14. An unexpected timer for cell division.

Author

Hauf S

Subjects

Cell Cycle, Cell Division

Published

2023

15. Correction: Speed variations of bacterial replisomes.

Author

Bhat D, Hauf S, Plessy C, Yokobayashi Y, and Pigolotti S

Published

2023

16. Chemical control of phase separation in DNA solutions.

Author

Hauf S and Yokobayashi Y

Subjects

Phase Transition, DNA chemistry

Abstract

We designed a series of DNA sequences comprising a trinucleotide repeat segment and a small molecule-binding aptamer. Optimization of the DNA sequences and reaction conditions enabled chemical control of phase separation of DNA condensates. Our results demonstrate a new strategy to regulate biomolecular phase transition.

Published

2023

17. Sock and Environmental Swabs as an Efficient, Non-Invasive Tool to Assess the Salmonella Status of Sow Farms.

Author

Lillie-Jaschniski K, Wähner C, Viehmann M, Hauf S, Gale C, Rohde J, and Hennig-Pauka I

Abstract

Salmonellosis is the second most reported gastrointestinal infection in humans after campylobacteriosis and a common cause of foodborne outbreaks in the European Union (EU). In addition to consumption of contaminated animal-based foods, such as poultry, beef and eggs, pork is an important source of human salmonellosis outbreaks; therefore, Salmonella ( S .) control should start in the early stages of pig production. To be able to implement effective control measures to reduce the risk of pigs being infected by Salmonella , it is important to identify the serovars circulating on farm within the different stages of production, including as early as sow and piglet breeding. The aim of the present study was to assess the Salmonella status of sow farms either producing their own finishers or delivering piglets to fattening farms with a known high serological prevalence identified within the QS Salmonella monitoring system. Overall, 97 (92.4%) of 105 investigated piglet-producing farms across Germany tested positive in at least one sample. Salmonella was detected in 38.2% of the sock and 27.1% of the environmental swab samples. S . Typhimurium was the most frequent serovar. In conclusion, sock and environmental swab samples are well suited for non-invasive Salmonella detection in different production units in farrowing farms. To establish a holistic Salmonella control program, all age classes of pig production should be sampled to enable intervention and implementation of countermeasures at an early stage if necessary.

Published

2023

18. Photon-shot-noise-limited transient absorption soft X-ray spectroscopy at the European XFEL.

Author

Le Guyader L, Eschenlohr A, Beye M, Schlotter W, Döring F, Carinan C, Hickin D, Agarwal N, Boeglin C, Bovensiepen U, Buck J, Carley R, Castoldi A, D'Elia A, Delitz JT, Ehsan W, Engel R, Erdinger F, Fangohr H, Fischer P, Fiorini C, Föhlisch A, Gelisio L, Gensch M, Gerasimova N, Gort R, Hansen K, Hauf S, Izquierdo M, Jal E, Kamil E, Karabekyan S, Kluyver T, Laarmann T, Lojewski T, Lomidze D, Maffessanti S, Mamyrbayev T, Marcelli A, Mercadier L, Mercurio G, Miedema PS, Ollefs K, Rossnagel K, Rösner B, Rothenbach N, Samartsev A, Schlappa J, Setoodehnia K, Sorin Chiuzbaian G, Spieker L, Stamm C, Stellato F, Techert S, Teichmann M, Turcato M, Van Kuiken B, Wende H, Yaroslavtsev A, Zhu J, Molodtsov S, David C, Porro M, and Scherz A

Abstract

Femtosecond transient soft X-ray absorption spectroscopy (XAS) is a very promising technique that can be employed at X-ray free-electron lasers (FELs) to investigate out-of-equilibrium dynamics for material and energy research. Here, a dedicated setup for soft X-rays available at the Spectroscopy and Coherent Scattering (SCS) instrument at the European X-ray Free-Electron Laser (European XFEL) is presented. It consists of a beam-splitting off-axis zone plate (BOZ) used in transmission to create three copies of the incoming beam, which are used to measure the transmitted intensity through the excited and unexcited sample, as well as to monitor the incoming intensity. Since these three intensity signals are detected shot by shot and simultaneously, this setup allows normalized shot-by-shot analysis of the transmission. For photon detection, an imaging detector capable of recording up to 800 images at 4.5 MHz frame rate during the FEL burst is employed, and allows a photon-shot-noise-limited sensitivity to be approached. The setup and its capabilities are reviewed as well as the online and offline analysis tools provided to users., (open access.)

Published

2023

19. Interprofessional Collaboration Between a Clinical Pharmacist and Specialty Physicians to Treat Hepatitis C in an Interdisciplinary Medical Practice Setting.

Author

Fix JT, Hauf S, Herrera M, Martin R, Sweeden M, and Meyer K

Abstract

Objective: Describes the activities of a clinical pharmacist in a gastroenterology (GI) clinic providing services to hepatitis C virus (HCV) patients, with a focus on practice management activities and tools. Practice Description: Located inside a GI specialty clinic in Fort Worth, Texas, the pharmacist provides comprehensive medication management under a collaborative practice agreement (CPA). Once referred by the GI physician, the pharmacist has face-to-face patient visits, develops the care plan, orders medications, and follows patients through sustained virologic response and the development of a hepatocellular carcinoma surveillance plan. Practice Innovation: The role of pharmacists in the management of HCV is important to understand. This article details a pharmacist-led clinic in an open GI medical practice. Evaluation: A retrospective chart review study was conducted to assess outcomes related to the integration of the clinical pharmacist. Methods: Completed by the study team, this study included manual chart reviews of patients with the ambulatory care pharmacist-driven HCV practice to pull data and information that were then tabulated using Qualtrics. Results: A total of 95 charts were surveyed, 78 records were created, and 49 patients were started on direct-acting antiviral (DAA) treatment by the pharmacist. Patients required multiple pharmacist communication actions. The minimum duration of the pharmacist service was 6 months and could extend more than 9 months depending on the time it took to get the patient started on medication. Pharmacist integration into the practice resulted in improved intake for the GI clinic, improved interprofessional interaction, and increased utilization of newer treatment modalities for HCV which feature cure rates up to 99% with limited side effects. Conclusion: Clinical pharmacists are well positioned to help navigate patients through the complexities of the medication use system, medication access, drug interactions and adverse effects, promote medication adherence, and allow patients to start and complete therapy., Competing Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article., (© The Author(s) 2022.)

Published

2022

20. Megahertz-rate ultrafast X-ray scattering and holographic imaging at the European XFEL.

Author

Zhou Hagström N, Schneider M, Kerber N, Yaroslavtsev A, Burgos Parra E, Beg M, Lang M, Günther CM, Seng B, Kammerbauer F, Popescu H, Pancaldi M, Neeraj K, Polley D, Jangid R, Hrkac SB, Patel SKK, Ovcharenko S, Turenne D, Ksenzov D, Boeglin C, Baidakova M, von Korff Schmising C, Borchert M, Vodungbo B, Chen K, Luo C, Radu F, Müller L, Martínez Flórez M, Philippi-Kobs A, Riepp M, Roseker W, Grübel G, Carley R, Schlappa J, Van Kuiken BE, Gort R, Mercadier L, Agarwal N, Le Guyader L, Mercurio G, Teichmann M, Delitz JT, Reich A, Broers C, Hickin D, Deiter C, Moore J, Rompotis D, Wang J, Kane D, Venkatesan S, Meier J, Pallas F, Jezynski T, Lederer M, Boukhelef D, Szuba J, Wrona K, Hauf S, Zhu J, Bergemann M, Kamil E, Kluyver T, Rosca R, Spirzewski M, Kuster M, Turcato M, Lomidze D, Samartsev A, Engelke J, Porro M, Maffessanti S, Hansen K, Erdinger F, Fischer P, Fiorini C, Castoldi A, Manghisoni M, Wunderer CB, Fullerton EE, Shpyrko OG, Gutt C, Sanchez-Hanke C, Dürr HA, Iacocca E, Nembach HT, Keller MW, Shaw JM, Silva TJ, Kukreja R, Fangohr H, Eisebitt S, Kläui M, Jaouen N, Scherz A, Bonetti S, and Jal E

Subjects

X-Rays, Radiography, Lasers, Holography

Abstract

The advent of X-ray free-electron lasers (XFELs) has revolutionized fundamental science, from atomic to condensed matter physics, from chemistry to biology, giving researchers access to X-rays with unprecedented brightness, coherence and pulse duration. All XFEL facilities built until recently provided X-ray pulses at a relatively low repetition rate, with limited data statistics. Here, results from the first megahertz-repetition-rate X-ray scattering experiments at the Spectroscopy and Coherent Scattering (SCS) instrument of the European XFEL are presented. The experimental capabilities that the SCS instrument offers, resulting from the operation at megahertz repetition rates and the availability of the novel DSSC 2D imaging detector, are illustrated. Time-resolved magnetic X-ray scattering and holographic imaging experiments in solid state samples were chosen as representative, providing an ideal test-bed for operation at megahertz rates. Our results are relevant and applicable to any other non-destructive XFEL experiments in the soft X-ray range., (open access.)

Published

2022

21. Analysis of the Sequence Preference of Saporin by Deep Sequencing.

Author

Hauf S, Rotrattanadumrong R, and Yokobayashi Y

Subjects

Adenosine, Aniline Compounds, Antiviral Agents pharmacology, DNA metabolism, High-Throughput Nucleotide Sequencing, Oligonucleotides, Plant Proteins metabolism, RNA metabolism, RNA, Ribosomal, 28S, Ribosome Inactivating Proteins, Ribosome Inactivating Proteins, Type 1, Saporins, Immunotoxins, Ricin pharmacology

Abstract

Ribosome-inactivating proteins (RIPs) are RNA:adenosine glycosidases that inactivate eukaryotic ribosomes by depurinating the sarcin-ricin loop (SRL) in 28S rRNA. The GAGA sequence at the top of the SRL or at the top of a hairpin loop is assumed to be their target motif. Saporin is a RIP widely used to develop immunotoxins for research and medical applications, but its sequence specificity has not been investigated. Here, we combine the conventional aniline cleavage assay for depurinated nucleic acids with high-throughput sequencing to study sequence-specific depurination of oligonucleotides caused by saporin. Our data reveal the sequence preference of saporin for different substrates and show that the GAGA motif is not efficiently targeted by this protein, neither in RNA nor in DNA. Instead, a preference of saporin for certain hairpin DNAs was observed. The observed sequence-specific activity of saporin may be relevant to antiviral or apoptosis-inducing effects of RIPs. The developed method could also be useful for studying the sequence specificity of depurination by other RIPs or enzymes.

Published

2022

22. Mitotic checkpoint gene expression is tuned by codon usage bias.

Author

Esposito E, Weidemann DE, Rogers JM, Morton CM, Baybay EK, Chen J, and Hauf S

Subjects

Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Codon Usage, Gene Expression, Kinetochores metabolism, M Phase Cell Cycle Checkpoints genetics, Mad2 Proteins metabolism, RNA, Messenger metabolism, Spindle Apparatus genetics, Spindle Apparatus metabolism, Schizosaccharomyces genetics, Schizosaccharomyces metabolism, Schizosaccharomyces pombe Proteins genetics, Schizosaccharomyces pombe Proteins metabolism

Abstract

The mitotic checkpoint (also called spindle assembly checkpoint, SAC) is a signaling pathway that safeguards proper chromosome segregation. Correct functioning of the SAC depends on adequate protein concentrations and appropriate stoichiometries between SAC proteins. Yet very little is known about the regulation of SAC gene expression. Here, we show in the fission yeast Schizosaccharomyces pombe that a combination of short mRNA half-lives and long protein half-lives supports stable SAC protein levels. For the SAC genes mad2 + and mad3 + , their short mRNA half-lives are caused, in part, by a high frequency of nonoptimal codons. In contrast, mad1 + mRNA has a short half-life despite a higher frequency of optimal codons, and despite the lack of known RNA-destabilizing motifs. Hence, different SAC genes employ different strategies of expression. We further show that Mad1 homodimers form co-translationally, which may necessitate a certain codon usage pattern. Taken together, we propose that the codon usage of SAC genes is fine-tuned to ensure proper SAC function. Our work shines light on gene expression features that promote spindle assembly checkpoint function and suggests that synonymous mutations may weaken the checkpoint., (© 2022 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2022

23. Speed variations of bacterial replisomes.

Author

Bhat D, Hauf S, Plessy C, Yokobayashi Y, and Pigolotti S

Subjects

Chromosomes, DNA, DNA Replication genetics, DNA, Bacterial genetics, Escherichia coli genetics, Escherichia coli Proteins genetics

Abstract

Replisomes are multi-protein complexes that replicate genomes with remarkable speed and accuracy. Despite their importance, their dynamics is poorly characterized, especially in vivo. In this paper, we present an approach to infer the replisome dynamics from the DNA abundance distribution measured in a growing bacterial population. Our method is sensitive enough to detect subtle variations of the replisome speed along the genome. As an application, we experimentally measured the DNA abundance distribution in Escherichia coli populations growing at different temperatures using deep sequencing. We find that the average replisome speed increases nearly fivefold between 17 °C and 37 °C. Further, we observe wave-like variations of the replisome speed along the genome. These variations correlate with previously observed variations of the mutation rate, suggesting a common dynamical origin. Our approach has the potential to elucidate replication dynamics in E. coli mutants and in other bacterial species., Competing Interests: DB, SH, CP, YY, SP No competing interests declared, (© 2022, Bhat et al.)

Published

2022

24. Cdc48 influence on separase levels is independent of mitosis and suggests translational sensitivity of separase.

Author

Vijayakumari D, Müller J, and Hauf S

Subjects

Mitosis, Securin genetics, Securin metabolism, Separase genetics, Separase metabolism, Schizosaccharomyces metabolism, Schizosaccharomyces pombe Proteins genetics, Schizosaccharomyces pombe Proteins metabolism, Valosin Containing Protein metabolism

Abstract

Cdc48 (p97/VCP) is a AAA-ATPase that can extract ubiquitinated proteins from their binding partners and can cooperate with the proteasome for their degradation. A fission yeast cdc48 mutant (cdc48-353) shows low levels of the cohesin protease, separase, and pronounced chromosome segregation defects in mitosis. Separase initiates chromosome segregation when its binding partner securin is ubiquitinated and degraded. The low separase levels in the cdc48-353 mutant have been attributed to a failure to extract ubiquitinated securin from separase, resulting in co-degradation of separase along with securin. If true, Cdc48 would be important in mitosis. In contrast, we show here that low separase levels in the cdc48-353 mutant are independent of mitosis. Moreover, we find no evidence of enhanced separase degradation in the mutant. Instead, we suggest that the cdc48-353 mutant uncovers specific requirements for separase translation. Our results highlight a need to better understand how this key mitotic enzyme is synthesized., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

25. Mutation and selection explain why many eukaryotic centromeric DNA sequences are often A + T rich.

Author

Barbosa AC, Xu Z, Karari K, Williams W, Hauf S, and Brown WRA

Subjects

Base Sequence, Repetitive Sequences, Nucleic Acid, Centromere metabolism, Chromatin metabolism, DNA, Fungal chemistry, Schizosaccharomyces genetics

Abstract

We have used chromosome engineering to replace native centromeric DNA with different test sequences at native centromeres in two different strains of the fission yeast Schizosaccharomyces pombe and have discovered that A + T rich DNA, whether synthetic or of bacterial origin, will function as a centromere in this species. Using genome size as a surrogate for the inverse of effective population size (Ne) we also show that the relative A + T content of centromeric DNA scales with Ne across 43 animal, fungal and yeast (Opisthokonta) species. This suggests that in most of these species the A + T content of the centromeric DNA is determined by a balance between selection and mutation. Combining the experimental results and the evolutionary analyses allows us to conclude that A + T rich DNA of almost any sequence will function as a centromere in most Opisthokonta species. The fact that many G/C to A/T substitutions are unlikely to be selected against may contribute to the rapid evolution of centromeric DNA. We also show that a neo-centromere sequence is not simply a weak version of native centromeric DNA and suggest that neo-centromeres require factors either for their propagation or establishment in addition to those required by native centromeres., (© The Author(s) 2021. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2022

26. Two giants of cell division in an oppressive embrace.

Author

Hauf S

Subjects

Cell Division, Humans, Mental Disorders

Published

2021

27. Elements in the LftR Repressor Operator Interface Contributing to Regulation of Aurantimycin Resistance in Listeria monocytogenes.

Author

Hauf S, Engelgeh T, and Halbedel S

Subjects

ATP-Binding Cassette Transporters genetics, ATP-Binding Cassette Transporters metabolism, Bacterial Proteins chemistry, Bacterial Proteins genetics, Bacterial Proteins metabolism, Base Sequence, DNA, Bacterial chemistry, DNA, Bacterial metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Drug Resistance, Bacterial genetics, Genes, Bacterial, Repressor Proteins chemistry, Anti-Bacterial Agents pharmacology, Listeria monocytogenes drug effects, Listeria monocytogenes genetics, Operator Regions, Genetic, Promoter Regions, Genetic, Repressor Proteins genetics, Repressor Proteins metabolism

Abstract

The bacterium Listeria monocytogenes ubiquitously occurs in the environment but can cause severe invasive disease in susceptible individuals when ingested. We recently identified the L. monocytogenes genes lieAB and lftRS , encoding a multidrug resistance ABC transporter and a regulatory module, respectively. These genes jointly mediate resistance against aurantimycin, an antibiotic produced by the soil-dwelling species Streptomyces aurantiacus , and thus contribute to the survival of L. monocytogenes in its natural habitat, the soil. Repression of lieAB and lftRS is exceptionally tight but strongly induced in the presence of aurantimycin. Repression depends on LftR, which belongs to subfamily 2 of the PadR-like transcriptional repressors. To better understand this interesting class of transcriptional repressors, we here deduce the LftR operator sequence from a systematic truncation and mutation analysis of the P lieAB promoter. The sequence identified is also present in the P lftRS promoter but not found elsewhere in the chromosome. Mutational analysis of the putative operator in the P lftRS promoter confirmed its relevance for LftR-dependent repression. The proposed operator sequence was sufficient for DNA binding by LftR in vitro , and a mutation in this sequence affected aurantimycin resistance. Our results provide further insights into the transcriptional adaptation of an important human pathogen to survive the conditions in its natural reservoir. IMPORTANCE Listeria monocytogenes is an environmental bacterium that lives in the soil but can infect humans upon ingestion, and this can lead to severe invasive disease. Adaptation to these entirely different habitats involves massive reprogramming of transcription. Among the differentially expressed genes is the lieAB operon, which encodes a transporter for the detoxification of aurantimycin, an antimicrobial compound produced by soil-dwelling competitors. While lieAB is important for survival in the environment, its expression is detrimental during infection. We here identify critical elements in the lieAB promoter and its transcriptional regulator LftR that contribute to habitat-specific expression of the lieAB genes. These results further clarify the molecular mechanisms underlying the aurantimycin resistance of L. monocytogenes ., (Copyright © 2021 American Society for Microbiology.)

Published

2021

28. The 1-Megapixel pnCCD detector for the Small Quantum Systems Instrument at the European XFEL: system and operation aspects.

Author

Kuster M, Ahmed K, Ballak KE, Danilevski C, Ekmedžić M, Fernandes B, Gessler P, Hartmann R, Hauf S, Holl P, Meyer M, Montaño J, Münnich A, Ovcharenko Y, Rennhack N, Rüter T, Rupp D, Schlosser D, Setoodehnia K, Schmitt R, Strüder L, Tanyag RMP, Ulmer A, and Yousef H

Abstract

The X-ray free-electron lasers that became available during the last decade, like the European XFEL (EuXFEL), place high demands on their instrumentation. Especially at low photon energies below 1 keV, detectors with high sensitivity, and consequently low noise and high quantum efficiency, are required to enable facility users to fully exploit the scientific potential of the photon source. A 1-Megapixel pnCCD detector with a 1024 × 1024 pixel format has been installed and commissioned for imaging applications at the Nano-Sized Quantum System (NQS) station of the Small Quantum System (SQS) instrument at EuXFEL. The instrument is currently operating in the energy range between 0.5 and 3 keV and the NQS station is designed for investigations of the interaction of intense FEL pulses with clusters, nano-particles and small bio-molecules, by combining photo-ion and photo-electron spectroscopy with coherent diffraction imaging techniques. The core of the imaging detector is a pn-type charge coupled device (pnCCD) with a pixel pitch of 75 µm × 75 µm. Depending on the experimental scenario, the pnCCD enables imaging of single photons thanks to its very low electronic noise of 3 e - and high quantum efficiency. Here an overview on the EuXFEL pnCCD detector and the results from the commissioning and first user operation at the SQS experiment in June 2019 are presented. The detailed descriptions of the detector design and capabilities, its implementation at EuXFEL both mechanically and from the controls side as well as important data correction steps aim to provide useful background for users planning and analyzing experiments at EuXFEL and may serve as a benchmark for comparing and planning future endstations at other FELs., (open access.)

Published

2021

29. Pomegranate: 2D segmentation and 3D reconstruction for fission yeast and other radially symmetric cells.

Author

Baybay EK, Esposito E, and Hauf S

Subjects

Image Processing, Computer-Assisted methods, Imaging, Three-Dimensional methods, Microscopy methods, Bacteria cytology, Image Processing, Computer-Assisted instrumentation, Imaging, Three-Dimensional instrumentation, Microscopy instrumentation, Schizosaccharomyces cytology

Abstract

Three-dimensional (3D) segmentation of cells in microscopy images is crucial to accurately capture signals that extend across optical sections. Using brightfield images for segmentation has the advantage of being minimally phototoxic and leaving all other channels available for signals of interest. However, brightfield images only readily provide information for two-dimensional (2D) segmentation. In radially symmetric cells, such as fission yeast and many bacteria, this 2D segmentation can be computationally extruded into the third dimension. However, current methods typically make the simplifying assumption that cells are straight rods. Here, we report Pomegranate, a pipeline that performs the extrusion into 3D using spheres placed along the topological skeletons of the 2D-segmented regions. The diameter of these spheres adapts to the cell diameter at each position. Thus, Pomegranate accurately represents radially symmetric cells in 3D even if cell diameter varies and regardless of whether a cell is straight, bent or curved. We have tested Pomegranate on fission yeast and demonstrate its ability to 3D segment wild-type cells as well as classical size and shape mutants. The pipeline is available as a macro for the open-source image analysis software Fiji/ImageJ. 2D segmentations created within or outside Pomegranate can serve as input, thus making this a valuable extension to the image analysis portfolio already available for fission yeast and other radially symmetric cell types.

Published

2020

30. Segmented flow generator for serial crystallography at the European X-ray free electron laser.

Author

Echelmeier A, Cruz Villarreal J, Messerschmidt M, Kim D, Coe JD, Thifault D, Botha S, Egatz-Gomez A, Gandhi S, Brehm G, Conrad CE, Hansen DT, Madsen C, Bajt S, Meza-Aguilar JD, Oberthür D, Wiedorn MO, Fleckenstein H, Mendez D, Knoška J, Martin-Garcia JM, Hu H, Lisova S, Allahgholi A, Gevorkov Y, Ayyer K, Aplin S, Ginn HM, Graafsma H, Morgan AJ, Greiffenberg D, Klujev A, Laurus T, Poehlsen J, Trunk U, Mezza D, Schmidt B, Kuhn M, Fromme R, Sztuk-Dambietz J, Raab N, Hauf S, Silenzi A, Michelat T, Xu C, Danilevski C, Parenti A, Mekinda L, Weinhausen B, Mills G, Vagovic P, Kim Y, Kirkwood H, Bean R, Bielecki J, Stern S, Giewekemeyer K, Round AR, Schulz J, Dörner K, Grant TD, Mariani V, Barty A, Mancuso AP, Weierstall U, Spence JCH, Chapman HN, Zatsepin N, Fromme P, Kirian RA, and Ros A

Subjects

Aldehyde-Lyases ultrastructure, Escherichia coli Proteins ultrastructure, Hydrodynamics, Crystallography instrumentation, Electrons, Lab-On-A-Chip Devices, Lasers

Abstract

Serial femtosecond crystallography (SFX) with X-ray free electron lasers (XFELs) allows structure determination of membrane proteins and time-resolved crystallography. Common liquid sample delivery continuously jets the protein crystal suspension into the path of the XFEL, wasting a vast amount of sample due to the pulsed nature of all current XFEL sources. The European XFEL (EuXFEL) delivers femtosecond (fs) X-ray pulses in trains spaced 100 ms apart whereas pulses within trains are currently separated by 889 ns. Therefore, continuous sample delivery via fast jets wastes >99% of sample. Here, we introduce a microfluidic device delivering crystal laden droplets segmented with an immiscible oil reducing sample waste and demonstrate droplet injection at the EuXFEL compatible with high pressure liquid delivery of an SFX experiment. While achieving ~60% reduction in sample waste, we determine the structure of the enzyme 3-deoxy-D-manno-octulosonate-8-phosphate synthase from microcrystals delivered in droplets revealing distinct structural features not previously reported.

Published

2020

31. Author Correction: Membrane protein megahertz crystallography at the European XFEL.

Author

Gisriel C, Coe J, Letrun R, Yefanov OM, Luna-Chavez C, Stander NE, Lisova S, Mariani V, Kuhn M, Aplin S, Grant TD, Dörner K, Sato T, Echelmeier A, Villarreal JC, Hunter MS, Wiedorn MO, Knoska J, Mazalova V, Roy-Chowdhury S, Yang JH, Jones A, Bean R, Bielecki J, Kim Y, Mills G, Weinhausen B, Meza JD, Al-Qudami N, Bajt S, Brehm G, Botha S, Boukhelef D, Brockhauser S, Bruce BD, Coleman MA, Danilevski C, Discianno E, Dobson Z, Fangohr H, Martin-Garcia JM, Gevorkov Y, Hauf S, Hosseinizadeh A, Januschek F, Ketawala GK, Kupitz C, Maia L, Manetti M, Messerschmidt M, Michelat T, Mondal J, Ourmazd A, Previtali G, Sarrou I, Schön S, Schwander P, Shelby ML, Silenzi A, Sztuk-Dambietz J, Szuba J, Turcato M, White TA, Wrona K, Xu C, Abdellatif MH, Zook JD, Spence JCH, Chapman HN, Barty A, Kirian RA, Frank M, Ros A, Schmidt M, Fromme R, Mancuso AP, Fromme P, and Zatsepin NA

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

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

Author

Yefanov O, Oberthür D, Bean R, Wiedorn MO, Knoska J, Pena G, Awel S, Gumprecht L, Domaracky M, Sarrou I, Lourdu Xavier P, Metz M, Bajt S, Mariani V, Gevorkov Y, White TA, Tolstikova A, Villanueva-Perez P, Seuring C, Aplin S, Estillore AD, Küpper J, Klyuev A, Kuhn M, Laurus T, Graafsma H, Monteiro DCF, Trebbin M, Maia FRNC, Cruz-Mazo F, Gañán-Calvo AM, Heymann M, Darmanin C, Abbey B, Schmidt M, Fromme P, Giewekemeyer K, Sikorski M, Graceffa R, Vagovic P, Kluyver T, Bergemann M, Fangohr H, Sztuk-Dambietz J, Hauf S, Raab N, Bondar V, Mancuso AP, Chapman H, and Barty A

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 subsequent pulses in the European XFEL pulse train were determined, showing that there is essentially no difference between structures determined from different pulses under currently available operating conditions at the European XFEL., (© 2019 Author(s).)

Published

2019

33. Membrane protein megahertz crystallography at the European XFEL.

Author

Gisriel C, Coe J, Letrun R, Yefanov OM, Luna-Chavez C, Stander NE, Lisova S, Mariani V, Kuhn M, Aplin S, Grant TD, Dörner K, Sato T, Echelmeier A, Cruz Villarreal J, Hunter MS, Wiedorn MO, Knoska J, Mazalova V, Roy-Chowdhury S, Yang JH, Jones A, Bean R, Bielecki J, Kim Y, Mills G, Weinhausen B, Meza JD, Al-Qudami N, Bajt S, Brehm G, Botha S, Boukhelef D, Brockhauser S, Bruce BD, Coleman MA, Danilevski C, Discianno E, Dobson Z, Fangohr H, Martin-Garcia JM, Gevorkov Y, Hauf S, Hosseinizadeh A, Januschek F, Ketawala GK, Kupitz C, Maia L, Manetti M, Messerschmidt M, Michelat T, Mondal J, Ourmazd A, Previtali G, Sarrou I, Schön S, Schwander P, Shelby ML, Silenzi A, Sztuk-Dambietz J, Szuba J, Turcato M, White TA, Wrona K, Xu C, Abdellatif MH, Zook JD, Spence JCH, Chapman HN, Barty A, Kirian RA, Frank M, Ros A, Schmidt M, Fromme R, Mancuso AP, Fromme P, and Zatsepin NA

Subjects

Crystallography, Cyanobacteria metabolism, Models, Molecular, Photosystem I Protein Complex chemistry, Photosystem I Protein Complex isolation & purification, Static Electricity, Synchrotrons, Thermosynechococcus, X-Rays, Electrons, Lasers, Membrane Proteins chemistry

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

34. Scientific instrument Femtosecond X-ray Experiments (FXE): instrumentation and baseline experimental capabilities.

Author

Galler A, Gawelda W, Biednov M, Bomer C, Britz A, Brockhauser S, Choi TK, Diez M, Frankenberger P, French M, Görries D, Hart M, Hauf S, Khakhulin D, Knoll M, Korsch T, Kubicek K, Kuster M, Lang P, Alves Lima F, Otte F, Schulz S, Zalden P, and Bressler C

Subjects

Calibration, Equipment Design, Photons, Scattering, Radiation, X-Rays, Lasers, Photochemistry instrumentation, Spectrometry, X-Ray Emission instrumentation

Abstract

The European X-ray Free-Electron Laser (EuXFEL) delivers extremely intense (>10 12  photons pulse -1 and up to 27000 pulses s -1 ), ultrashort (<100 fs) and transversely coherent X-ray radiation, at a repetition rate of up to 4.5 MHz. Its unique X-ray beam parameters enable novel and groundbreaking experiments in ultrafast photochemistry and material sciences at the Femtosecond X-ray Experiments (FXE) scientific instrument. This paper provides an overview of the currently implemented experimental baseline instrumentation and its performance during the commissioning phase, and a preview of planned improvements. FXE's versatile instrumentation combines the simultaneous application of forward X-ray scattering and X-ray spectroscopy techniques with femtosecond time resolution. These methods will eventually permit exploitation of wide-angle X-ray scattering studies and X-ray emission spectroscopy, along with X-ray absorption spectroscopy, including resonant inelastic X-ray scattering and X-ray Raman scattering. A suite of ultrafast optical lasers throughout the UV-visible and near-IR ranges (extending up to mid-IR in the near future) with pulse length down to 15 fs, synchronized to the X-ray source, serve to initiate dynamic changes in the sample. Time-delayed hard X-ray pulses in the 5-20 keV range are used to probe the ensuing dynamic processes using the suite of X-ray probe tools. FXE is equipped with a primary monochromator, a primary and secondary single-shot spectrometer, and a timing tool to correct the residual timing jitter between laser and X-ray pulses., (open access.)

Published

2019

35. The Karabo distributed control system.

Author

Hauf S, Heisen B, Aplin S, Beg M, Bergemann M, Bondar V, Boukhelef D, Danilevsky C, Ehsan W, Essenov S, Fabbri R, Flucke G, Fulla Marsa D, Göries D, Giovanetti G, Hickin D, Jarosiewicz T, Kamil E, Khakhulin D, Klimovskaia A, Kluyver T, Kirienko Y, Kuhn M, Maia L, Mamchyk D, Mariani V, Mekinda L, Michelat T, Münnich A, Padee A, Parenti A, Santos H, Silenzi A, Teichmann M, Weger K, Wiggins J, Wrona K, Xu C, Youngman C, Zhu J, Fangohr H, and Brockhauser S

Abstract

The Karabo distributed control system has been developed to address the challenging requirements of the European X-ray Free Electron Laser facility, including complex and custom-made hardware, high data rates and volumes, and close integration of data analysis for distributed processing and rapid feedback. Karabo is a pluggable, distributed application management system forming a supervisory control and data acquisition environment as part of a distributed control system. Karabo provides integrated control of hardware, monitoring, data acquisition and data analysis on distributed hardware, allowing rapid control feedback based on complex algorithms. Services exist for access control, data logging, configuration management and situational awareness through alarm indicators. The flexible framework enables quick response to the changing requirements in control and analysis, and provides an efficient environment for development, and a single interface to make all changes immediately available to operators and experimentalists.

Published

2019

36. PadR-type repressors controlling production of a non-canonical FtsW/RodA homologue and other trans-membrane proteins.

Author

Hauf S, Möller L, Fuchs S, and Halbedel S

Subjects

Base Sequence, Gene Expression Regulation, Bacterial genetics, Humans, Listeriosis microbiology, Operon genetics, Sequence Analysis, RNA, Bacterial Proteins genetics, Listeria monocytogenes genetics, Membrane Proteins genetics, Repressor Proteins genetics

Abstract

The Gram-positive bacterium Listeria monocytogenes occurs ubiquitously in the environment and infects humans upon ingestion. It encodes four PadR-like repressors, out of which LftR has been characterized previously and was shown to control gene expression in response to the antibiotic aurantimycin produced by other environmental bacteria. To better understand the PadR regulons of L. monocytogenes, we performed RNA-sequencing with mutants of the other three repressors LadR, LstR and Lmo0599. We show that LadR is primarily responsible for the regulation of the mdrL gene, encoding an efflux pump, while LstR and Lmo0599 mainly regulate their own operons. The lstR operon contains the lmo0421 gene, encoding a homolog of the RodA/FtsW protein family. However, this protein does not possess such functionality, as we demonstrate here. The lmo0599 operon contains two additional genes coding for the hypothetical trans-membrane proteins lmo0600 and lmo0601. A striking phenotype of the lmo0599 mutant is its impaired growth at refrigeration temperature. In light of these and other results we suggest that Lmo0599 should be renamed and propose LltR (listerial low temperature regulator) as its new designation. Based on the nature of the PadR target genes we assume that these repressors collectively respond to compounds acting on the cellular envelope.

Published

2019

37. MHz data collection of a microcrystalline mixture of different jack bean proteins.

Author

Grünbein ML, Bielecki J, Gorel A, Stricker M, Bean R, Cammarata M, Dörner K, Fröhlich L, Hartmann E, Hauf S, Hilpert M, Kim Y, Kloos M, Letrun R, Messerschmidt M, Mills G, Nass Kovacs G, Ramilli M, Roome CM, Sato T, Scholz M, Sliwa M, Sztuk-Dambietz J, Weik M, Weinhausen B, Al-Qudami N, Boukhelef D, Brockhauser S, Ehsan W, Emons M, Esenov S, Fangohr H, Kaukher A, Kluyver T, Lederer M, Maia L, Manetti M, Michelat T, Münnich A, Pallas F, Palmer G, Previtali G, Raab N, Silenzi A, Szuba J, Venkatesan S, Wrona K, Zhu J, Doak RB, Shoeman RL, Foucar L, Colletier JP, Mancuso AP, Barends TRM, Stan CA, and Schlichting I

Subjects

Crystallization, Crystallography, X-Ray, Concanavalin A chemistry, Plant Proteins chemistry, Urease chemistry

Abstract

We provide a detailed description of a serial femtosecond crystallography (SFX) dataset collected at the European X-ray free-electron laser facility (EuXFEL). The EuXFEL is the first high repetition rate XFEL delivering MHz X-ray pulse trains at 10 Hz. The short spacing (<1 µs) between pulses requires fast flowing microjets for sample injection and high frame rate detectors. A data set was recorded of a microcrystalline mixture of at least three different jack bean proteins (urease, concanavalin A, concanavalin B). A one megapixel Adaptive Gain Integrating Pixel Detector (AGIPD) was used which has not only a high frame rate but also a large dynamic range. This dataset is publicly available through the Coherent X-ray Imaging Data Bank (CXIDB) as a resource for algorithm development and for data analysis training for prospective XFEL users.

Published

2019

38. Aurantimycin resistance genes contribute to survival of Listeria monocytogenes during life in the environment.

Author

Hauf S, Herrmann J, Miethke M, Gibhardt J, Commichau FM, Müller R, Fuchs S, and Halbedel S

Subjects

Anti-Bacterial Agents pharmacology, Bacterial Proteins genetics, Gene Expression Regulation, Bacterial, Promoter Regions, Genetic, Streptomyces metabolism, Transcription Factors metabolism, ATP-Binding Cassette Transporters genetics, Depsipeptides pharmacology, Drug Resistance, Bacterial genetics, Listeria monocytogenes drug effects, Listeria monocytogenes genetics

Abstract

Bacteria can cope with toxic compounds such as antibiotics by inducing genes for their detoxification. A common detoxification strategy is compound excretion by ATP-binding cassette (ABC) transporters, which are synthesized upon compound contact. We previously identified the multidrug resistance ABC transporter LieAB in Listeria monocytogenes, a Gram-positive bacterium that occurs ubiquitously in the environment, but also causes severe infections in humans upon ingestion. Expression of the lieAB genes is strongly induced in cells lacking the PadR-type transcriptional repressor LftR, but compounds leading to relief of this repression in wild-type cells were not known. Using RNA-Seq and promoter-lacZ fusions, we demonstrate highly specific repression of the lieAB and lftRS promoters through LftR. Screening of a natural compound library yielded the depsipeptide aurantimycin A - synthesized by the soil-dwelling Streptomyces aurantiacus - as the first known naturally occurring inducer of lieAB expression. Genetic and phenotypic experiments concordantly show that aurantimycin A is a substrate of the LieAB transporter and thus, lftRS and lieAB represent the first known genetic module conferring and regulating aurantimycin A resistance. Collectively, these genes may support the survival of L. monocytogenes when it comes into contact with antibiotic-producing bacteria in the soil., (© 2019 John Wiley & Sons Ltd.)

Published

2019

39. Megahertz serial crystallography.

Author

Wiedorn MO, Oberthür D, Bean R, Schubert R, Werner N, Abbey B, Aepfelbacher M, Adriano L, Allahgholi A, Al-Qudami N, Andreasson J, Aplin S, Awel S, Ayyer K, Bajt S, Barák I, Bari S, Bielecki J, Botha S, Boukhelef D, Brehm W, Brockhauser S, Cheviakov I, Coleman MA, Cruz-Mazo F, Danilevski C, Darmanin C, Doak RB, Domaracky M, Dörner K, Du Y, Fangohr H, Fleckenstein H, Frank M, Fromme P, Gañán-Calvo AM, Gevorkov Y, Giewekemeyer K, Ginn HM, Graafsma H, Graceffa R, Greiffenberg D, Gumprecht L, Göttlicher P, Hajdu J, Hauf S, Heymann M, Holmes S, Horke DA, Hunter MS, Imlau S, Kaukher A, Kim Y, Klyuev A, Knoška J, Kobe B, Kuhn M, Kupitz C, Küpper J, Lahey-Rudolph JM, Laurus T, Le Cong K, Letrun R, Xavier PL, Maia L, Maia FRNC, Mariani V, Messerschmidt M, Metz M, Mezza D, Michelat T, Mills G, Monteiro DCF, Morgan A, Mühlig K, Munke A, Münnich A, Nette J, Nugent KA, Nuguid T, Orville AM, Pandey S, Pena G, Villanueva-Perez P, Poehlsen J, Previtali G, Redecke L, Riekehr WM, Rohde H, Round A, Safenreiter T, Sarrou I, Sato T, Schmidt M, Schmitt B, Schönherr R, Schulz J, Sellberg JA, Seibert MM, Seuring C, Shelby ML, Shoeman RL, Sikorski M, Silenzi A, Stan CA, Shi X, Stern S, Sztuk-Dambietz J, Szuba J, Tolstikova A, Trebbin M, Trunk U, Vagovic P, Ve T, Weinhausen B, White TA, Wrona K, Xu C, Yefanov O, Zatsepin N, Zhang J, Perbandt M, Mancuso AP, Betzel C, Chapman H, and Barty A

Abstract

The new European X-ray Free-Electron Laser is the first X-ray free-electron laser capable of delivering X-ray pulses with a megahertz inter-pulse spacing, more than four orders of magnitude higher than previously possible. However, to date, it has been unclear whether it would indeed be possible to measure high-quality diffraction data at megahertz pulse repetition rates. Here, we show that high-quality structures can indeed be obtained using currently available operating conditions at the European XFEL. We present two complete data sets, one from the well-known model system lysozyme and the other from a so far unknown complex of a β-lactamase from K. pneumoniae involved in antibiotic resistance. This result opens up megahertz serial femtosecond crystallography (SFX) as a tool for reliable structure determination, substrate screening and the efficient measurement of the evolution and dynamics of molecular structures using megahertz repetition rate pulses available at this new class of X-ray laser source.

Published

2018

40. Implications of alternative routes to APC/C inhibition by the mitotic checkpoint complex.

Author

Gross F, Bonaiuti P, Hauf S, and Ciliberto A

Subjects

Anaphase, Cell Cycle Proteins antagonists & inhibitors, Cell Nucleus metabolism, Models, Theoretical, Protein Binding, Signal Transduction, Spindle Apparatus metabolism, Anaphase-Promoting Complex-Cyclosome, Cdc20 Proteins metabolism, Cell Cycle Proteins metabolism, Chromosome Segregation, Mitosis genetics, Schizosaccharomyces cytology, Schizosaccharomyces pombe Proteins metabolism

Abstract

The mitotic checkpoint (also called spindle assembly checkpoint) is a signaling pathway that ensures faithful chromosome segregation. Mitotic checkpoint proteins inhibit the anaphase-promoting complex (APC/C) and its activator Cdc20 to prevent precocious anaphase. Checkpoint signaling leads to a complex of APC/C, Cdc20, and checkpoint proteins, in which the APC/C is inactive. In principle, this final product of the mitotic checkpoint can be obtained via different pathways, whose relevance still needs to be fully ascertained experimentally. Here, we use mathematical models to compare the implications on checkpoint response of the possible pathways leading to APC/C inhibition. We identify a previously unrecognized funneling effect for Cdc20, which favors Cdc20 incorporation into the inhibitory complex and therefore promotes checkpoint activity. Furthermore, we find that the presence or absence of one specific assembly reaction determines whether the checkpoint remains functional at elevated levels of Cdc20, which can occur in cancer cells. Our results reveal the inhibitory logics behind checkpoint activity, predict checkpoint efficiency in perturbed situations, and could inform molecular strategies to treat malignancies that exhibit Cdc20 overexpression., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

41. Megahertz data collection from protein microcrystals at an X-ray free-electron laser.

Author

Grünbein ML, Bielecki J, Gorel A, Stricker M, Bean R, Cammarata M, Dörner K, Fröhlich L, Hartmann E, Hauf S, Hilpert M, Kim Y, Kloos M, Letrun R, Messerschmidt M, Mills G, Nass Kovacs G, Ramilli M, Roome CM, Sato T, Scholz M, Sliwa M, Sztuk-Dambietz J, Weik M, Weinhausen B, Al-Qudami N, Boukhelef D, Brockhauser S, Ehsan W, Emons M, Esenov S, Fangohr H, Kaukher A, Kluyver T, Lederer M, Maia L, Manetti M, Michelat T, Münnich A, Pallas F, Palmer G, Previtali G, Raab N, Silenzi A, Szuba J, Venkatesan S, Wrona K, Zhu J, Doak RB, Shoeman RL, Foucar L, Colletier JP, Mancuso AP, Barends TRM, Stan CA, and Schlichting I

Abstract

X-ray free-electron lasers (XFELs) enable novel experiments because of their high peak brilliance and femtosecond pulse duration. However, non-superconducting XFELs offer repetition rates of only 10-120 Hz, placing significant demands on beam time and sample consumption. We describe serial femtosecond crystallography experiments performed at the European XFEL, the first MHz repetition rate XFEL, delivering 1.128 MHz X-ray pulse trains at 10 Hz. Given the short spacing between pulses, damage caused by shock waves launched by one XFEL pulse on sample probed by subsequent pulses is a concern. To investigate this issue, we collected data from lysozyme microcrystals, exposed to a ~15 μm XFEL beam. Under these conditions, data quality is independent of whether the first or subsequent pulses of the train were used for data collection. We also analyzed a mixture of microcrystals of jack bean proteins, from which the structure of native, magnesium-containing concanavalin A was determined.

Published

2018

42. Genetic Dissection of DivIVA Functions in Listeria monocytogenes.

Author

Kaval KG, Hauf S, Rismondo J, Hahn B, and Halbedel S

Subjects

Alleles, Cell Division, Cell Wall metabolism, Listeria monocytogenes growth & development, Listeria monocytogenes pathogenicity, N-Acetylmuramoyl-L-alanine Amidase metabolism, Peptidoglycan metabolism, Protein Transport, Bacterial Proteins genetics, Bacterial Proteins metabolism, Cell Cycle Proteins genetics, Cell Cycle Proteins metabolism, Listeria monocytogenes genetics

Abstract

DivIVA is a membrane binding protein that clusters at curved membrane regions, such as the cell poles and the membrane invaginations occurring during cell division. DivIVA proteins recruit many other proteins to these subcellular sites through direct protein-protein interactions. DivIVA-dependent functions are typically associated with cell growth and division, even though species-specific differences in the spectrum of DivIVA functions and their causative interaction partners exist. DivIVA from the Gram-positive human pathogen Listeria monocytogenes has at least three different functions. In this bacterium, DivIVA is required for precise positioning of the septum at midcell, it contributes to the secretion of autolysins required for the breakdown of peptidoglycan at the septum after the completion of cell division, and it is essential for flagellar motility. While the DivIVA interaction partners for control of division site selection are well established, the proteins connecting DivIVA with autolysin secretion or swarming motility are completely unknown. We set out to identify divIVA alleles in which these three DivIVA functions could be separated, since the question of the degree to which the three functions of L. monocytogenes DivIVA are interlinked could not be answered before. Here, we identify such alleles, and our results show that division site selection, autolysin secretion, and swarming represent three discrete pathways that are independently influenced by DivIVA. These findings provide the required basis for the identification of DivIVA interaction partners controlling autolysin secretion and swarming in the future. IMPORTANCE DivIVA of the pathogenic bacterium Listeria monocytogenes is a central scaffold protein that influences at least three different cellular processes, namely, cell division, protein secretion, and bacterial motility. How DivIVA coordinates these rather unrelated processes is not known. We here identify variants of L. monocytogenes DivIVA, in which these functions are separated from each other. These results have important implications for the models explaining how DivIVA interacts with other proteins., (Copyright © 2017 American Society for Microbiology.)

Published

2017

43. Stable Isotope Labeling by Amino Acids in Cell Culture (SILAC)-Based Quantitative Proteomics and Phosphoproteomics in Fission Yeast.

Author

Carpy A, Koch A, Bicho CC, Borek WE, Hauf S, Sawin KE, and Maček B

Subjects

Mass Spectrometry methods, Amino Acids metabolism, Fungal Proteins analysis, Isotope Labeling methods, Phosphoproteins analysis, Proteome analysis, Proteomics methods, Schizosaccharomyces metabolism

Abstract

Modern mass spectrometry (MS)-based approaches are capable of identifying and quantifying thousands of proteins and phosphorylation events in a single biological experiment. Here we present a (phospho)proteomic workflow based on in-solution proteome digestion of samples labeled by stable isotope labeling by amino acids in cell culture (SILAC) and phosphopeptide enrichment using strong cation exchange (SCX) and TiO 2 chromatographies. These procedures are followed by high-accuracy MS measurement on an Orbitrap mass spectrometer and subsequent bioinformatic processing using MaxQuant software., (© 2017 Cold Spring Harbor Laboratory Press.)

Published

2017

44. Construction, Growth, and Harvesting of Fission Yeast Stable Isotope Labeling by Amino Acids in Cell Culture (SILAC) Strains.

Author

Koch A, Bicho CC, Borek WE, Carpy A, Maček B, Hauf S, and Sawin KE

Subjects

Fungal Proteins isolation & purification, Phosphoproteins isolation & purification, Schizosaccharomyces metabolism, Arginine metabolism, Isotope Labeling methods, Lysine metabolism, Proteomics methods, Schizosaccharomyces growth & development, Schizosaccharomyces isolation & purification

Abstract

Stable isotope labeling by amino acids in cell culture (SILAC) enables the relative quantification of protein amounts and posttranslational modifications in complex biological samples through the use of stable heavy isotope-labeled amino acids. Here we describe methods for the application of SILAC to fission yeast Schizosaccharomyces pombe using either labeled lysine or a combination of labeled lysine and labeled arginine. The latter approach is more complicated than the use of labeled lysine alone but may yield a more comprehensive (phospho)proteomic analysis. The protocol includes methods for construction of SILAC-compatible strains, growth of cultures in labeled medium, cell harvesting, and protein extraction., (© 2017 Cold Spring Harbor Laboratory Press.)

Published

2017

45. Stable Isotope Labeling by Amino Acids in Cell Culture (SILAC) Technology in Fission Yeast.

Author

Maček B, Carpy A, Koch A, Bicho CC, Borek WE, Hauf S, and Sawin KE

Subjects

Mass Spectrometry methods, Amino Acids metabolism, Fungal Proteins analysis, Isotope Labeling methods, Phosphoproteins analysis, Proteome analysis, Proteomics methods, Schizosaccharomyces metabolism

Abstract

Shotgun proteomics combined with stable isotope labeling by amino acids in cell culture (SILAC) is a powerful approach to quantify proteins and posttranslational modifications across the entire proteome. SILAC technology in Schizosaccharomyces pombe must cope with the "arginine conversion problem," in which isotope-labeled arginine is converted to other amino acids. This can be circumvented by either using stable isotope-marked lysine only (as opposed to the more standard lysine/arginine double labeling) or using yeast genetics to create strains that only very inefficiently convert arginine. Both strategies have been used successfully in large-scale (phospho)proteomics projects in S. pombe Here we introduce methods for performing a typical SILAC-based experiment in fission yeast, including generation of SILAC-compatible strains, sample preparation, and measurement by mass spectrometry., (© 2017 Cold Spring Harbor Laboratory Press.)

Published

2017

46. Different Functionality of Cdc20 Binding Sites within the Mitotic Checkpoint Complex.

Author

Sewart K and Hauf S

Subjects

Amino Acid Sequence, Binding Sites, Cdc20 Proteins metabolism, Cell Cycle Checkpoints, Cell Cycle Proteins metabolism, Humans, M Phase Cell Cycle Checkpoints, Multiprotein Complexes metabolism, Schizosaccharomyces, Sequence Homology, Cdc20 Proteins chemistry, Cell Cycle Proteins chemistry, Multiprotein Complexes chemistry

Abstract

The mitotic checkpoint is a cellular safeguard that prevents chromosome missegregation in eukaryotic cells [1, 2]. Suboptimal functioning may foster chromosome missegregation in cancer cells [3]. Checkpoint signaling produces the "mitotic checkpoint complex" (MCC), which prevents anaphase by targeting Cdc20, the activator of the anaphase-promoting complex/cyclosome (APC/C). Recent biochemical and structural studies revealed that the human MCC binds two Cdc20 molecules, one (Cdc20 M ) through well-characterized, cooperative binding to Mad2 and Mad3/BubR1 (forming the "core MCC") and the other one (Cdc20 A ) through additional binding sequences in Mad3/BubR1 [4-6]. Here, we dissect the different functionality of these sites in vivo. We show in fission yeast that, at low Cdc20 concentrations, Cdc20 M binding is sufficient for checkpoint activity and Cdc20 A binding becomes dispensable. Cdc20 A binding is mediated by the conserved Mad3 ABBA-KEN2-ABBA motif [7, 8], which we find additionally required for binding of the MCC to the APC/C and for MCC disassembly. Strikingly, deletion of the APC/C subunit Apc15 mimics mutations in this motif, revealing a shared function. This function of Apc15 may be masked in human cells by independent mediators of MCC-APC/C binding. Our data provide important in vivo support for the recent structure-based models and functionally dissect three elements of Cdc20 inhibition: (1) sequestration of Cdc20 in the core MCC, sufficient at low Cdc20 concentrations; (2) inhibition of a second Cdc20 through the Mad3 C terminus, independent of Mad2 binding to this Cdc20 molecule; and (3) occupancy of the APC/C with full MCC, where Mad3 and Apc15 are involved., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

47. Micromanaging checkpoint proteins.

Author

Ciliberto A and Hauf S

Subjects

Phosphorylation, Protein Serine-Threonine Kinases genetics, Signal Transduction, Cell Cycle Proteins genetics, Kinetochores

Abstract

The kinase Mps1, long known to be the 'boss' in mitotic checkpoint signaling, phosphorylates multiple proteins in the checkpoint signaling cascade.

Published

2017

48. Time To Split Up: Dynamics of Chromosome Separation.

Author

Kamenz J and Hauf S

Subjects

Animals, Chromatids metabolism, Humans, Mitosis, Models, Biological, Separase metabolism, Chromosome Segregation

Abstract

The separation of chromosomes in anaphase is a precarious step in the cell cycle. The separation is irreversible, and any error can lead to cell death or genetic instability. Chromosome separation is controlled by the protease separase. Here we discuss recent work that has revealed additional layers of separase regulation and has deepened our understanding of how separase activation is coordinated with other events of mitotic exit., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

49. MEMO: multi-experiment mixture model analysis of censored data.

Author

Geissen EM, Hasenauer J, Heinrich S, Hauf S, Theis FJ, and Radde NE

Subjects

Humans, Probability, Computational Biology methods, Models, Statistical

Abstract

Motivation: The statistical analysis of single-cell data is a challenge in cell biological studies. Tailored statistical models and computational methods are required to resolve the subpopulation structure, i.e. to correctly identify and characterize subpopulations. These approaches also support the unraveling of sources of cell-to-cell variability. Finite mixture models have shown promise, but the available approaches are ill suited to the simultaneous consideration of data from multiple experimental conditions and to censored data. The prevalence and relevance of single-cell data and the lack of suitable computational analytics make automated methods, that are able to deal with the requirements posed by these data, necessary., Results: We present MEMO, a flexible mixture modeling framework that enables the simultaneous, automated analysis of censored and uncensored data acquired under multiple experimental conditions. MEMO is based on maximum-likelihood inference and allows for testing competing hypotheses. MEMO can be applied to a variety of different single-cell data types. We demonstrate the advantages of MEMO by analyzing right and interval censored single-cell microscopy data. Our results show that an examination of censoring and the simultaneous consideration of different experimental conditions are necessary to reveal biologically meaningful subpopulation structures. MEMO allows for a stringent analysis of single-cell data and enables researchers to avoid misinterpretation of censored data. Therefore, MEMO is a valuable asset for all fields that infer the characteristics of populations by looking at single individuals such as cell biology and medicine., Availability and Implementation: MEMO is implemented in MATLAB and freely available via github (https://github.com/MEMO-toolbox/MEMO)., Contacts: eva-maria.geissen@ist.uni-stuttgart.de or nicole.radde@ist.uni-stuttgart.de, Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author 2016. Published by Oxford University Press.)

Published

2016

50. Robust Ordering of Anaphase Events by Adaptive Thresholds and Competing Degradation Pathways.

Author

Kamenz J, Mihaljev T, Kubis A, Legewie S, and Hauf S

Subjects

Cyclin B genetics, Schizosaccharomyces genetics, Schizosaccharomyces pombe Proteins genetics, Anaphase physiology, Cyclin B metabolism, Models, Biological, Schizosaccharomyces metabolism, Schizosaccharomyces pombe Proteins metabolism

Abstract

The splitting of chromosomes in anaphase and their delivery into the daughter cells needs to be accurately executed to maintain genome stability. Chromosome splitting requires the degradation of securin, whereas the distribution of the chromosomes into the daughter cells requires the degradation of cyclin B. We show that cells encounter and tolerate variations in the abundance of securin or cyclin B. This makes the concurrent onset of securin and cyclin B degradation insufficient to guarantee that early anaphase events occur in the correct order. We uncover that the timing of chromosome splitting is not determined by reaching a fixed securin level, but that this level adapts to the securin degradation kinetics. In conjunction with securin and cyclin B competing for degradation during anaphase, this provides robustness to the temporal order of anaphase events. Our work reveals how parallel cell-cycle pathways can be temporally coordinated despite variability in protein concentrations., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015