Your search keyword '"Gioia, L."' showing total 967 results

1. The real-world safety profile of tirzepatide: pharmacovigilance analysis of the FDA Adverse Event Reporting System (FAERS) database

Author

Caruso, I., Di Gioia, L., Di Molfetta, S., Caporusso, M., Cignarelli, A., Sorice, G. P., Laviola, L., and Giorgino, F.

Published

2024

2. Correlation Redistribution by Causal Horizons

Author

de Gioia, L. Pipolo and de Oliveira, M. C.

Subjects

Quantum Physics, General Relativity and Quantum Cosmology

Abstract

The Minkowski vacuum $|0\rangle_M$, which for an inertial observer is devoid of particles, is treated as a thermal bath by Rindler observers living in a single Rindler wedge, as a result of the discrepancy in the definition of positive frequency between the two classes of observers and a strong entanglement between degrees of freedom in the left and right Rindler wedges. We revisit, in the context of a free scalar Klein-Gordon field, the problem of quantification of the correlations between an inertial observer Alice and left/right Rindler observes Rob/AntiRob. We emphasize the analysis of informational quantities, like the locally accessible and locally inaccessible information, and a closely associated entanglement measure, the entanglement of formation. We conclude that, with respect to the correlation structure probed by inertial observers alone, the introduction of a Rindler observer gives rise to a correlation redistribution which can be quantified by the entanglement of formation., Comment: 9 pages, 7 figures

Published

2020

3. Fractional Quantum Hall Effect in Weyl Semimetals

Author

Wang, Chong, Gioia, L., and Burkov, A. A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Weyl semimetal may be thought of as a gapless topological phase protected by the chiral anomaly, where the symmetries involved in the anomaly are the $U(1)$ charge conservation and the crystal translational symmetry. The absence of a band gap in a weakly-interacting Weyl semimetal is mandated by the electronic structure topology and is guaranteed as long as the symmetries and the anomaly are intact. The nontrivial topology also manifests in the Fermi arc surface states and topological response, in particular taking the form of an anomalous Hall effect in magnetic Weyl semimetals, whose magnitude is only determined by the location of the Weyl nodes in the Brillouin zone. Here we consider the situation when the interactions are not weak and ask whether it is possible to open a gap in a magnetic Weyl semimetal while preserving its nontrivial electronic structure topology along with the translational and the charge conservation symmetries. Surprisingly, the answer turns out to be yes. The resulting topologically ordered state provides a nontrivial realization of the fractional quantum Hall effect in three spatial dimensions in the absence of an external magnetic field, which cannot be viewed as a stack of two dimensional states. Our state contains loop excitations with nontrivial braiding statistics when linked with lattice dislocations., Comment: 5+3 pages, 3 figures; published version

Published

2019

4. Spherical topological-insulator nanoparticles: Quantum size effects and optical transitions

Author

Gioia, L., Christie, M. G., Zülicke, U., Governale, M., and Sneyd, A. J.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We have investigated the interplay between band inversion and size quantization in spherically shaped nanoparticles made from topological-insulator (TI) materials. A general theoretical framework is developed based on a versatile continuum-model description of the TI bulk band structure and the assumption of a hard-wall mass confinement. Analytical results are obtained for the wave functions of single-electron energy eigenstates and the matrix elements for optical transitions between them. As expected from spherical symmetry, quantized levels in TI nanoparticles can be labeled by quantum numbers $j$ and $m=-j, -j+1, \dots, j$ for total angular momentum and its projection on an arbitrary axis. The fact that TIs are narrow-gap materials, where the charge-carrier dynamics is described by a type of two-flavor Dirac model, requires $j$ to assume half-integer values and also causes a doubling of energy-level degeneracy where two different classes of states are distinguished by being parity eigenstates with eigenvalues $(-1)^{j\mp 1/2}$. The existence of energy eigenstates having the same $j$ but opposite parity enables optical transitions where $j$ is conserved, in addition to those adhering to the familiar selection rule where $j$ changes by $\pm 1$. All optical transitions satisfy the usual selection rule $\Delta m = 0, \pm 1$. We treat intra- and inter-band optical transitions on the same footing and establish ways for observing unusual quantum-size effects in TI nanoparticles, including oscillatory dependences of the band gap and of transition amplitudes on the nanoparticle radius. Our theory also provides a unified perspective on multi-band models for charge carriers in semiconductors and Dirac fermions from elementary-particle physics., Comment: 13 pages, 4 figures, RevTex4.2, v2: extended discussion of optical transitions, including new Figs. 3 & 4, to appear in PRB

Published

2019

5. Evolution of Virus-like Features and Intrinsically Disordered Regions in Retrotransposon-derived Mammalian Genes

Author

Cagliani, R, Forni, D, Mozzi, A, Fuchs, R, Tussia-Cohen, D, Arrigoni, F, Pozzoli, U, De Gioia, L, Hagai, T, Sironi, M, Cagliani R, Forni D, Mozzi A, Fuchs R, Tussia-Cohen D, Arrigoni F, Pozzoli U, De Gioia L, Hagai T, Sironi M, Cagliani, R, Forni, D, Mozzi, A, Fuchs, R, Tussia-Cohen, D, Arrigoni, F, Pozzoli, U, De Gioia, L, Hagai, T, Sironi, M, Cagliani R, Forni D, Mozzi A, Fuchs R, Tussia-Cohen D, Arrigoni F, Pozzoli U, De Gioia L, Hagai T, and Sironi M

Abstract

Several mammalian genes have originated from the domestication of retrotransposons, selfish mobile elements related to retroviruses. Some of the proteins encoded by these genes have maintained virus-like features; including self-processing, capsid structure formation, and the generation of different isoforms through −1 programmed ribosomal frameshifting. Using quantitative approaches in molecular evolution and biophysical analyses, we studied 28 retrotransposon-derived genes, with a focus on the evolution of virus-like features. By analyzing the rate of synonymous substitutions, we show that the −1 programmed ribosomal frameshifting mechanism in three of these genes (PEG10, PNMA3, and PNMA5) is conserved across mammals and originates alternative proteins. These genes were targets of positive selection in primates, and one of the positively selected sites affects a B-cell epitope on the spike domain of the PNMA5 capsid, a finding reminiscent of observations in infectious viruses. More generally, we found that retrotransposon-derived proteins vary in their intrinsically disordered region content and this is directly associated with their evolutionary rates. Most positively selected sites in these proteins are located in intrinsically disordered regions and some of them impact protein posttranslational modifications, such as autocleavage and phosphorylation. Detailed analyses of the biophysical properties of intrinsically disordered regions showed that positive selection preferentially targeted regions with lower conformational entropy. Furthermore, positive selection introduces variation in binary sequence patterns across orthologues, as well as in chain compaction. Our results shed light on the evolutionary trajectories of a unique class of mammalian genes and suggest a novel approach to study how intrinsically disordered region biophysical characteristics are affected by evolution.

Published

2024

6. Dirac electrons in quantum rings

Author

Gioia, L., Zülicke, U., Governale, M., and Winkler, R.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We consider quantum rings realized in materials where the dynamics of charge carriers mimics that of two-dimensional (2D) Dirac electrons. A general theoretical description of the ring-subband structure is developed that applies to a range of currently available 2D systems, including graphene, transition-metal dichalcogenides, and narrow-gap semiconductor quantum wells. We employ the scattering-matrix approach to calculate the electronic two-terminal conductance through the ring and investigate how it is affected by Dirac-electron interference. The interplay of pseudo-spin chirality and hard-wall confinement is found to distinctly affect the geometric phase that is experimentally accessible in mesoscopic-conductance measurements. We derive an effective Hamiltonian for the azimuthal motion of charge carriers in the ring that yields deeper insight into the physical origin of the observed transport effects, including the unique behavior exhibited by the lowest ring subband in the normal and topological (i.e., band-inverted) regimes. Our work provides a unified approach to characterizing confined Dirac electrons, which can be used to explore the design of valley- and spintronic devices based on quantum interference and the confinement-tunable geometric phase., Comment: 17 pages, 10 figures, RevTex4.1, v2: version to appear in PRB, v3: final published version

Published

2018

7. Mechanism of non-phenolic substrate oxidation by the fungal laccase Type 1 copper site from Trametes versicolor: the case of benzo[a]pyrene and anthracene

Author

Orlando, C, Rizzo, I, Arrigoni, F, Zampolli, J, Mangiagalli, M, Di Gennaro, P, Lotti, M, De Gioia, L, Marino, T, Greco, C, Bertini, L, Orlando, Carla, Rizzo, Isabella Cecilia, Arrigoni, Federica, Zampolli, Jessica, Mangiagalli, Marco, Di Gennaro, Patrizia, Lotti, Marina, De Gioia, Luca, Marino, Tiziana, Greco, Claudio, Bertini, Luca, Orlando, C, Rizzo, I, Arrigoni, F, Zampolli, J, Mangiagalli, M, Di Gennaro, P, Lotti, M, De Gioia, L, Marino, T, Greco, C, Bertini, L, Orlando, Carla, Rizzo, Isabella Cecilia, Arrigoni, Federica, Zampolli, Jessica, Mangiagalli, Marco, Di Gennaro, Patrizia, Lotti, Marina, De Gioia, Luca, Marino, Tiziana, Greco, Claudio, and Bertini, Luca

Abstract

Laccases (EC 1.10.3.2) are multicopper oxidases with the capability to oxidize diverse phenolic and non-phenolic substrates. While the molecular mechanism of their activity towards phenolic substrates is well-established, their reactivity towards non-phenolic substrates, such as polycyclic aromatic hydrocarbons (PAHs), remains unclear. To elucidate the oxidation mechanism of PAHs, particularly the activation mechanism of the sp(2) aromatic C-H bond, we conducted a density functional theory investigation on the oxidation of two PAHs (anthracene and benzo[a]pyrene) using an extensive model of the T1 copper catalytic site of the fungal laccase from Trametes versicolor.

Published

2024

8. Molecular Dynamics for the Optimal Design of Functionalized Nanodevices to Target Folate Receptors on Tumor Cells

Author

Donadoni, E, Frigerio, G, Siani, P, Motta, S, Vertemara, J, De Gioia, L, Bonati, L, Di Valentin, C, Donadoni, E, Frigerio, G, Siani, P, Motta, S, Vertemara, J, De Gioia, L, Bonati, L, and Di Valentin, C

Published

2024

9. Correlation redistribution by causal horizons

Author

de Gioia, L. Pipolo and de Oliveira, M. C.

Published

2022

10. Penumbral imaging and functional outcome in patients with anterior circulation ischaemic stroke treated with endovascular thrombectomy versus medical therapy: a meta-analysis of individual patient-level data

Author

Berkhemer, Olvert A, Fransen, Puck SS, Beumer, Debbie, van den Berg, Lucie A, Lingsma, Hester F, Yoo, Albert J, Schonewille, Wouter J, Vos, Jan Albert, Nederkoorn, Paul J, Wermer, Marieke JH, van Walderveen, Marianne AA, Staals, Julie, Hofmeijer, Jeannette, van Oostayen, Jacques A., Lycklama à Nijeholt, Geert J., Boiten, Jelis, Brouwer, Patrick A., Emmer, Bart J., de Bruijn, Sebastiaan F., van Dijk, Lukas C., Kappelle, Jaap, Lo, Rob H, van Dijk, Ewoud J., de Vries, Joost, de Kort, Paul L.M., van Rooij, Willem Jan J., van den Berg, Jan S.P., van Hasselt, Boudewijn A.A.M., Aerden, Leo A.M., Dallinga, René J., Visser, Marieke C., Bot, Joseph C.J., Vroomen, Patrick C., Eshghi, Omid, Schreuder, Tobien H.C.M.L., Heijboer, Roel J.J., Keizer, Koos, Tielbeek, Alexander V., den Hertog, Heleen M., Gerrits, Dick G., van den Berg-Vos, Renske M., Karas, Giorgos B., Steyerberg, Ewout W., Flach, Zwenneke, Marquering, Henk A., Sprengers, Marieke E.S., Jenniskens, Sjoerd F.M., Beenen, Ludo F.M., van den Berg, René, Koudstaal, Peter J., van Zwam, Wim H., Roos, Yvo B.W.E.M., van der Lugt, Aad, van Oostenbrugge, Robert J., Majoie, Charles B.L.M., Dippel, Diederik W.J., Brown, Martin M., Liebig, Thomas, Stijnen, Theo, Andersson, Tommy, Mattle, Heinrich, Wahlgren, Nils, van der Heijden, Esther, Ghannouti, Naziha, Fleitour, Nadine, Hooijenga, Imke, Puppels, Corina, Pellikaan, Wilma, Geerling, Annet, Lindl-Velema, Annemieke, van Vemde, Gina, de Ridder, Ans, Greebe, Paut, de Bont-Stikkelbroeck, José, de Meris, Joke, Janssen, Kirsten, Struijk, Willy, Licher, Silvan, Boodt, Nikki, Ros, Adriaan, Venema, Esmee, Slokkers, Ilse, Ganpat, Raymie-Jayce, Mulder, Maxim, Saiedie, Nawid, Heshmatollah, Alis, Schipperen, Stefanie, Vinken, Stefan, van Boxtel, Tiemen, Koets, Jeroen, Boers, Merel, Santos, Emilie, Borst, Jordi, Jansen, Ivo, Kappelhof, Manon, Lucas, Marit, Geuskens, Ralph, Barros, Renan Sales, Dobbe, Roeland, Csizmadia, Marloes, Hill, MD, Goyal, M, Demchuk, AM, Menon, BK, Eesa, M, Ryckborst, KJ, Wright, MR, Kamal, NR, Andersen, L, Randhawa, PA, Stewart, T, Patil, S, Minhas, P, Almekhlafi, M, Mishra, S, Clement, F, Sajobi, T, Shuaib, A, Montanera, WJ, Roy, D, Silver, FL, Jovin, TG, Frei, DF, Sapkota, B, Rempel, JL, Thornton, J, Williams, D, Tampieri, D, Poppe, AY, Dowlatshahi, D, Wong, JH, Mitha, AP, Subramaniam, S, Hull, G, Lowerison, MW, Salluzzi, M, Maxwell, M, Lacusta, S, Drupals, E, Armitage, K, Barber, PA, Smith, EE, Morrish, WF, Coutts, SB, Derdeyn, C, Demaerschalk, B, Yavagal, D, Martin, R, Brant, R, Yu, Y, Willinsky, RA, Weill, A, Kenney, C, Aram, H, Stys, PK, Watson, TW, Klein, G, Pearson, D, Couillard, P, Trivedi, A, Singh, D, Klourfeld, E, Imoukhuede, O, Nikneshan, D, Blayney, S, Reddy, R, Choi, P, Horton, M, Musuka, T, Dubuc, V, Field, TS, Desai, J, Adatia, S, Alseraya, A, Nambiar, V, van Dijk, R, Newcommon, NJ, Schwindt, B, Butcher, KS, Jeerakathil, T, Buck, B, Khan, K, Naik, SS, Emery, DJ, Owen, RJ, Kotylak, TB, Ashforth, RA, Yeo, TA, McNally, D, Siddiqui, M, Saqqur, M, Hussain, D, Kalashyan, H, Manosalva, A, Kate, M, Gioia, L, Hasan, S, Mohammad, A, Muratoglu, M, Cullen, A, Brennan, P, O'Hare, A, Looby, S, Hyland, D, Duff, S, McCusker, M, Hallinan, B, Lee, S, McCormack, J, Moore, A, O'Connor, M, Donegan, C, Brewer, L, Martin, A, Murphy, S, O'Rourke, K, Smyth, S, Kelly, P, Lynch, T, Daly, T, O'Brien, P, O'Driscoll, A, Martin, M, Collins, R, Coughlan, T, McCabe, D, O'Neill, D, Mulroy, M, Lynch, O, Walsh, T, O'Donnell, M, Galvin, T, Harbison, J, McElwaine, P, Mulpeter, K, McLoughlin, C, Reardon, M, Harkin, E, Dolan, E, Watts, M, Cunningham, N, Fallon, C, Gallagher, S, Cotter, P, Crowe, M, Doyle, R, Noone, I, Lapierre, M, Coté, VA, Lanthier, S, Odier, C, Durocher, A, Raymond, J, Daneault, N, Deschaintre, Y, Jankowitz, B, Baxendell, L, Massaro, L, Jackson-Graves, C, Decesare, S, Porter, P, Armbruster, K, Adams, A, Billigan, J, Oakley, J, Ducruet, A, Jadhav, A, Giurgiutiu, D-V, Aghaebrahim, A, Reddy, V, Hammer, M, Starr, M, Totoraitis, V, Wechsler, L, Streib, S, Rangaraju, S, Campbell, D, Rocha, M, Gulati, D, Krings, T, Kalman, L, Cayley, A, Williams, J, Wiegner, R, Casaubon, LK, Jaigobin, C, del Campo, JM, Elamin, E, Schaafsma, JD, Agid, R, Farb, R, ter Brugge, K, Sapkoda, BL, Baxter, BW, Barton, K, Knox, A, Porter, A, Sirelkhatim, A, Devlin, T, Dellinger, C, Pitiyanuvath, N, Patterson, J, Nichols, J, Quarfordt, S, Calvert, J, Hawk, H, Fanale, C, Bitner, A, Novak, A, Huddle, D, Bellon, R, Loy, D, Wagner, J, Chang, I, Lampe, E, Spencer, B, Pratt, R, Bartt, R, Shine, S, Dooley, G, Nguyen, T, Whaley, M, McCarthy, K, Teitelbaum, J, Poon, W, Campbell, N, Cortes, M, Lum, C, Shamloul, R, Robert, S, Stotts, G, Shamy, M, Steffenhagen, N, Blacquiere, D, Hogan, M, AlHazzaa, M, Basir, G, Lesiuk, H, Iancu, D, Santos, M, Choe, H, Weisman, DC, Jonczak, K, Blue-Schaller, A, Shah, Q, MacKenzie, L, Klein, B, Kulandaivel, K, Kozak, O, Gzesh, DJ, Harris, LJ, Khoury, JS, Mandzia, J, Pelz, D, Crann, S, Fleming, L, Hesser, K, Beauchamp, B, Amato-Marzialli, B, Boulton, M, Lopez- Ojeda, P, Sharma, M, Lownie, S, Chan, R, Swartz, R, Howard, P, Golob, D, Gladstone, D, Boyle, K, Boulos, M, Hopyan, J, Yang, V, Da Costa, L, Holmstedt, CA, Turk, AS, Navarro, R, Jauch, E, Ozark, S, Turner, R, Phillips, S, Shankar, J, Jarrett, J, Gubitz, G, Maloney, W, Vandorpe, R, Schmidt, M, Heidenreich, J, Hunter, G, Kelly, M, Whelan, R, Peeling, L, Burns, PA, Hunter, A, Wiggam, I, Kerr, E, Watt, M, Fulton, A, Gordon, P, Rennie, I, Flynn, P, Smyth, G, O'Leary, S, Gentile, N, Linares, G, McNelis, P, Erkmen, K, Katz, P, Azizi, A, Weaver, M, Jungreis, C, Faro, S, Shah, P, Reimer, H, Kalugdan, V, Saposnik, G, Bharatha, A, Li, Y, Kostyrko, P, Marotta, T, Montanera, W, Sarma, D, Selchen, D, Spears, J, Heo, JH, Jeong, K, Kim, DJ, Kim, BM, Kim, YD, Song, D, Lee, K-J, Yoo, J, Bang, OY, Rho, S, Lee, J, Jeon, P, Kim, KH, Cha, J, Kim, SJ, Ryoo, S, Lee, MJ, Sohn, S-I, Kim, C-H, Ryu, H-G, Hong, J-H, Chang, H-W, Lee, C-Y, Rha, J, Davis, Stephen M, Donnan, Geoffrey A, Campbell, Bruce CV, Mitchell, Peter J, Churilov, Leonid, Yan, Bernard, Dowling, Richard, Yassi, Nawaf, Oxley, Thomas J, Wu, Teddy Y, Silver, Gabriel, McDonald, Amy, McCoy, Rachael, Kleinig, Timothy J, Scroop, Rebecca, Dewey, Helen M, Simpson, Marion, Brooks, Mark, Coulton, Bronwyn, Krause, Martin, Harrington, Timothy J, Steinfort, Brendan, Faulder, Kenneth, Priglinger, Miriam, Day, Susan, Phan, Thanh, Chong, Winston, Holt, Michael, Chandra, Ronil V, Ma, Henry, Young, Dennis, Wong, Kitty, Wijeratne, Tissa, Tu, Hans, Mackay, Elizabeth, Celestino, Sherisse, Bladin, Christopher F, Loh, Poh Sien, Gilligan, Amanda, Ross, Zofia, Coote, Skye, Frost, Tanya, Parsons, Mark W, Miteff, Ferdinand, Levi, Christopher R, Ang, Timothy, Spratt, Neil, Kaauwai, Lara, Badve, Monica, Rice, Henry, de Villiers, Laetitia, Barber, P. Alan, McGuinness, Ben, Hope, Ayton, Moriarty, Maurice, Bennett, Patricia, Wong, Andrew, Coulthard, Alan, Lee, Andrew, Jannes, Jim, Field, Deborah, Sharma, Gagan, Salinas, Simon, Cowley, Elise, Snow, Barry, Kolbe, John, Stark, Richard, King, John, Macdonnell, Richard, Attia, John, D'Este, Cate, Saver, Jeffrey L, Goyal, Mayank, Diener, Hans-Christoph, Levy, Elad I., Bonafé, Alain, Mendes Pereira, Vitor, Jahan, Reza, Albers, Gregory W., Cognard, Christophe, Cohen, David J., Hacke, Werner, Jansen, Olav, Jovin, Tudor G., Mattle, Heinrich P., Nogueira, Raul G., Siddiqui, Adnan H., Yavagal, Dileep R., von Kummer, Rüdiger, Smith, Wade, Turjman, Francis, Hamilton, Scott, Chiacchierini, Richard, Amar, Arun, Sanossian, Nerses, Loh, Yince, Baxter, B, Reddy, VK, Horev, A, Star, M, Siddiqui, A, Hopkins, LN, Snyder, K, Sawyer, R, Hall, S, Costalat, V, Riquelme, C, Machi, P, Omer, E, Arquizan, C, Mourand, I, Charif, M, Ayrignac, X, Menjot de Champfleur, N, Leboucq, N, Gascou, G, Moynier, M, du Mesnil de Rochemont, R, Singer, O, Berkefeld, J, Foerch, C, Lorenz, M, Pfeilschifer, W, Hattingen, E, Wagner, M, You, SJ, Lescher, S, Braun, H, Dehkharghani, S, Belagaje, SR, Anderson, A, Lima, A, Obideen, M, Haussen, D, Dharia, R, Frankel, M, Patel, V, Owada, K, Saad, A, Amerson, L, Horn, C, Doppelheuer, S, Schindler, K, Lopes, DK, Chen, M, Moftakhar, R, Anton, C, Smreczak, M, Carpenter, JS, Boo, S, Rai, A, Roberts, T, Tarabishy, A, Gutmann, L, Brooks, C, Brick, J, Domico, J, Reimann, G, Hinrichs, K, Becker, M, Heiss, E, Selle, C, Witteler, A, Al-Boutros, S, Danch, M-J, Ranft, A, Rohde, S, Burg, K, Weimar, C, Zegarac, V, Hartmann, C, Schlamann, M, Göricke, S, Ringlestein, A, Wanke, I, Mönninghoff, C, Dietzold, M, Budzik, R, Davis, T, Eubank, G, Hicks, WJ, Pema, P, Vora, N, Mejilla, J, Taylor, M, Clark, W, Rontal, A, Fields, J, Peterson, B, Nesbit, G, Lutsep, H, Bozorgchami, H, Priest, R, Ologuntoye, O, Barnwell, S, Dogan, A, Herrick, K, Takahasi, C, Beadell, N, Brown, B, Jamieson, S, Hussain, MS, Russman, A, Hui, F, Wisco, D, Uchino, K, Khawaja, Z, Katzan, I, Toth, G, Cheng-Ching, E, Bain, M, Man, S, Farrag, A, George, P, John, S, Shankar, L, Drofa, A, Dahlgren, R, Bauer, A, Itreat, A, Taqui, A, Cerejo, R, Richmond, A, Ringleb, P, Bendszus, M, Möhlenbruch, M, Reiff, T, Amiri, H, Purrucker, J, Herweh, C, Pham, M, Menn, O, Ludwig, I, Acosta, I, Villar, C, Morgan, W, Sombutmai, C, Hellinger, F, Allen, E, Bellew, M, Gandhi, R, Bonwit, E, Aly, J, Ecker, RD, Seder, D, Morris, J, Skaletsky, M, Belden, J, Baker, C, Connolly, LS, Papanagiotou, P, Roth, C, Kastrup, A, Politi, M, Brunner, F, Alexandrou, M, Merdivan, H, Ramsey, C, Given II, C, Renfrow, S, Deshmukh, V, Sasadeusz, K, Vincent, F, Thiesing, JT, Putnam, J, Bhatt, A, Kansara, A, Caceves, D, Lowenkopf, T, Yanase, L, Zurasky, J, Dancer, S, Freeman, B, Scheibe-Mirek, T, Robison, J, Roll, J, Clark, D, Rodriguez, M, Fitzsimmons, B-FM, Zaidat, O, Lynch, JR, Lazzaro, M, Larson, T, Padmore, L, Das, E, Farrow-Schmidt, A, Hassan, A, Tekle, W, Cate, C, Jansen, O, Cnyrim, C, Wodarg, F, Wiese, C, Binder, A, Riedel, C, Rohr, A, Lang, N, Laufs, H, Krieter, S, Remonda, L, Diepers, M, Añon, J, Nedeltchev, K, Kahles, T, Biethahn, S, Lindner, M, Chang, V, Gächter, C, Esperon, C, Guglielmetti, M, Arenillas Lara, JF, Martínez Galdámez, M, Calleja Sanz, AI, Cortijo Garcia, E, Garcia Bermejo, P, Perez, S, Mulero Carrillo, P, Crespo Vallejo, E, Ruiz Piñero, M, Lopez Mesonero, L, Reyes Muñoz, FJ, Brekenfeld, C, Buhk, J-H, Krützelmann, A, Thomalla, G, Cheng, B, Beck, C, Hoppe, J, Goebell, E, Holst, B, Grzyska, U, Wortmann, G, Starkman, S, Duckwiler, G, Jahan, R, Rao, N, Sheth, S, Ng, K, Noorian, A, Szeder, V, Nour, M, McManus, M, Huang, J, Tarpley, J, Tateshima, S, Gonzalez, N, Ali, L, Liebeskind, D, Hinman, J, Calderon-Arnulphi, M, Liang, C, Guzy, J, Koch, S, DeSousa, K, Gordon-Perue, G, Elhammady, M, Peterson, E, Pandey, V, Dharmadhikari, S, Khandelwal, P, Malik, A, Pafford, R, Gonzalez, P, Ramdas, K, Andersen, G, Damgaard, D, Von Weitzel-Mudersbach, P, Simonsen, C, Ruiz de Morales Ayudarte, N, Poulsen, M, Sørensen, L, Karabegovich, S, Hjørringgaard, M, Hjort, N, Harbo, T, Sørensen, K, Deshaies, E, Padalino, D, Swarnkar, A, Latorre, JG, Elnour, E, El-Zammar, Z, Villwock, M, Farid, H, Balgude, A, Cross, L, Hansen, K, Holtmannspötter, M, Kondziella, D, Hoejgaard, J, Taudorf, S, Soendergaard, H, Wagner, A, Cronquist, M, Stavngaard, T, Cortsen, M, Krarup, LH, Hyldal, T, Haring, H-P, Guggenberger, S, Hamberger, M, Trenkler, J, Sonnberger, M, Nussbaumer, K, Dominger, C, Bach, E, Jagadeesan, BD, Taylor, R, Kim, J, Shea, K, Tummala, R, Zacharatos, H, Sandhu, D, Ezzeddine, M, Grande, A, Hildebrandt, D, Miller, K, Scherber, J, Hendrickson, A, Jumaa, M, Zaidi, S, Hendrickson, T, Snyder, V, Killer-Oberpfalzer, M, Mutzenbach, J, Weymayr, F, Broussalis, E, Stadler, K, Jedlitschka, A, Malek, A, Mueller-Kronast, N, Beck, P, Martin, C, Summers, D, Day, J, Bettinger, I, Holloway, W, Olds, K, Arkin, S, Akhtar, N, Boutwell, C, Crandall, S, Schwartzman, M, Weinstein, C, Brion, B, Prothmann, S, Kleine, J, Kreiser, K, Boeckh-Behrens, T, Poppert, H, Wunderlich, S, Koch, ML, Biberacher, V, Huberle, A, Gora-Stahlberg, G, Knier, B, Meindl, T, Utpadel-Fischler, D, Zech, M, Kowarik, M, Seifert, C, Schwaiger, B, Puri, A, Hou, S, Wakhloo, A, Moonis, M, Henninger, N, Goddeau, R, Massari, F, Minaeian, A, Lozano, JD, Ramzan, M, Stout, C, Patel, A, Tunguturi, A, Onteddu, S, Carandang, R, Howk, M, Ribó, M, Sanjuan, E, Rubiera, M, Pagola, J, Flores, A, Muchada, M, Meler, P, Huerga, E, Gelabert, S, Coscojuela, P, Tomasello, A, Rodriguez, D, Santamarina, E, Maisterra, O, Boned, S, Seró, L, Rovira, A, Molina, CA, Millán, M, Muñoz, L, Pérez de la Ossa, N, Gomis, M, Dorado, L, López-Cancio, E, Palomeras, E, Munuera, J, García Bermejo, P, Remollo, S, Castaño, C, García-Sort, R, Cuadras, P, Puyalto, P, Hernández-Pérez, M, Jiménez, M, Martínez-Piñeiro, A, Lucente, G, Dávalos, A, Chamorro, A, Urra, X, Obach, V, Cervera, A, Amaro, S, Llull, L, Codas, J, Balasa, M, Navarro, J, Ariño, H, Aceituno, A, Rudilosso, S, Renu, A, Macho, JM, San Roman, L, Blasco, J, López, A, Macías, N, Cardona, P, Quesada, H, Rubio, F, Cano, L, Lara, B, de Miquel, MA, Aja, L, Serena, J, Cobo, E, Albers, Gregory W, Lees, Kennedy R, Arenillas, J, Roberts, R, Al-Ajlan, F, Zimmel, L, Patel, S, Martí-Fàbregas, J, Salvat-Plana, M, Bracard, S, Ducrocq, Xavier, Anxionnat, René, Baillot, Pierre-Alexandre, Barbier, Charlotte, Derelle, Anne-Laure, Lacour, Jean-Christophe, Richard, Sébastien, Samson, Yves, Sourour, Nader, Baronnet-Chauvet, Flore, Clarencon, Frédéric, Crozier, Sophie, Deltour, Sandrine, Di Maria, Federico, Le Bouc, Raphael, Leger, Anne, Mutlu, Gurkan, Rosso, Charlotte, Szatmary, Zoltan, Yger, Marion, Zavanone, Chiara, Bakchine, Serge, Pierot, Laurent, Caucheteux, Nathalie, Estrade, Laurent, Kadziolka, Krzysztof, Leautaud, Alexandre, Renkes, Céline, Serre, Isabelle, Desal, Hubert, Guillon, Benoît, Boutoleau-Bretonniere, Claire, Daumas-Duport, Benjamin, De Gaalon, Solène, Derkinderen, Pascal, Evain, Sarah, Herisson, Fanny, Laplaud, David-Axel, Lebouvier, Thibaud, Lintia-Gaultier, Alina, Pouclet-Courtemanche, Hélène, Rouaud, Tiphaine, Rouaud Jaffrenou, Violaine, Schunck, Aurélia, Sevin-Allouet, Mathieu, Toulgoat, Frederique, Wiertlewski, Sandrine, Gauvrit, Jean-Yves, Ronziere, Thomas, Cahagne, Vincent, Ferre, Jean-Christophe, Pinel, Jean-François, Raoult, Hélène, Mas, Jean-Louis, Meder, Jean-François, Al Najjar-Carpentier, Amen-Adam, Birchenall, Julia, Bodiguel, Eric, Calvet, David, Domigo, Valérie, Godon-Hardy, Sylvie, Guiraud, Vincent, Lamy, Catherine, Majhadi, Loubna, Morin, Ludovic, Naggara, Olivier, Trystram, Denis, Turc, Guillaume, Berge, Jérôme, Sibon, Igor, Menegon, Patrice, Barreau, Xavier, Rouanet, François, Debruxelles, Sabrina, Kazadi, Annabelle, Renou, Pauline, Fleury, Olivier, Pasco-Papon, Anne, Dubas, Frédéric, Caroff, Jildaz, Godard Ducceschi, Sophie, Hamon, Marie-Aurélie, Lecluse, Alderic, Marc, Guillaume, Giroud, Maurice, Ricolfi, Frédéric, Bejot, Yannick, Chavent, Adrien, Gentil, Arnaud, Kazemi, Apolline, Osseby, Guy-Victor, Voguet, Charlotte, Mahagne, Marie-Hélène, Sedat, Jacques, Chau, Yves, Suissa, Laurent, Lachaud, Sylvain, Houdart, Emmanuel, Stapf, Christian, Buffon Porcher, Frédérique, Chabriat, Hugues, Guedin, Pierre, Herve, Dominique, Jouvent, Eric, Mawet, Jérôme, Saint-Maurice, Jean-Pierre, Schneble, Hans-Martin, Nighoghossian, Norbert, Berhoune, Nadia-Nawel, Bouhour, Françoise, Cho, Tae-Hee, Derex, Laurent, Felix, Sandra, Gervais-Bernard, Hélène, Gory, Benjamin, Manera, Luis, Mechtouff, Laura, Ritzenthaler, Thomas, Riva, Roberto, Salaris Silvio, Fabrizio, Tilikete, Caroline, Blanc, Raphael, Obadia, Michaël, Bartolini, Mario Bruno, Gueguen, Antoine, Piotin, Michel, Pistocchi, Silvia, Redjem, Hocine, Drouineau, Jacques, Neau, Jean-Philippe, Godeneche, Gaelle, Lamy, Matthias, Marsac, Emilia, Velasco, Stephane, Clavelou, Pierre, Chabert, Emmanuel, Bourgois, Nathalie, Cornut-Chauvinc, Catherine, Ferrier, Anna, Gabrillargues, Jean, Jean, Betty, Marques, Anna-Raquel, Vitello, Nicolas, Detante, Olivier, Barbieux, Marianne, Boubagra, Kamel, Favre Wiki, Isabelle, Garambois, Katia, Tahon, Florence, Ashok, Vasdev, Coskun, Oguzhan, Rodesch, Georges, Lapergue, Bertrand, Bourdain, Frédéric, Evrard, Serge, Graveleau, Philippe, Decroix, Jean Pierre, Wang, Adrien, Sellal, François, Ahle, Guido, Carelli, Gabriela, Dugay, Marie-Hélène, Gaultier, Claude, Lebedinsky, Ariel Pablo, Lita, Lavinia, Musacchio, Raul Mariano, Renglewicz-Destuynder, Catherine, Tournade, Alain, Vuillemet, Françis, Montoro, Francisco Macian, Mounayer, Charbel, Faugeras, Frederic, Gimenez, Laetitia, Labach, Catherine, Lautrette, Géraldine, Denier, Christian, Saliou, Guillaume, Chassin, Olivier, Dussaule, Claire, Melki, Elsa, Ozanne, Augustin, Puccinelli, Francesco, Sachet, Marina, Sarov, Mariana, Bonneville, Jean-François, Moulin, Thierry, Biondi, Alessandra, De Bustos Medeiros, Elisabeth, Vuillier, Fabrice, Courtheoux, Patrick, Viader, Fausto, Apoil-Brissard, Marion, Bataille, Mathieu, Bonnet, Anne-Laure, Cogez, Julien, Touze, Emmanuel, Leclerc, Xavier, Leys, Didier, Aggour, Mohamed, Aguettaz, Pierre, Bodenant, Marie, Cordonnier, Charlotte, Deplanque, Dominique, Girot, Marie, Henon, Hilde, Kalsoum, Erwah, Lucas, Christian, Pruvo, Jean-Pierre, Zuniga, Paolo, Arquizan, Caroline, Costalat, Vincent, Machi, Paolo, Mourand, Isabelle, Riquelme, Carlos, Bounolleau, Pierre, Arteaga, Charles, Faivre, Anthony, Bintner, Marc, Tournebize, Patrice, Charlin, Cyril, Darcel, Françoise, Gauthier-Lasalarie, Pascale, Jeremenko, Marcia, Mouton, Servane, Zerlauth, Jean-Baptiste, Lamy, Chantal, Hervé, Deramond, Hassan, Hosseini, Gaston, André, Barral, Francis-Guy, Garnier, Pierre, Beaujeux, Rémy, Wolff, Valérie, Herbreteau, Denis, Debiais, Séverine, Murray, Alicia, Ford, Gary, Muir, Keith W, White, Philip, Clifton, Andy, Freeman, Janet, Ford, Ian, Markus, Hugh, Wardlaw, Joanna, Molyneux, Andy, Robinson, Thompson, Lewis, Steff, Norrie, John, Robertson, Fergus, Perry, Richard, Dixit, Anand, Cloud, Geoffrey, Clifton, Andrew, Madigan, Jeremy, Roffe, Christine, Nayak, Sanjeev, Lobotesis, Kyriakos, Smith, Craig, Herwadkar, Amit, Kandasamy, Naga, Goddard, Tony, Bamford, John, Subramanian, Ganesh, Lenthall, Rob, Littleton, Edward, Lamin, Sal, Storey, Kelley, Ghatala, Rita, Banaras, Azra, Aeron-Thomas, John, Hazel, Bath, Maguire, Holly, Veraque, Emelda, Harrison, Louise, Keshvara, Rekha, Cunningham, James, Campbell, Bruce C V, Majoie, Charles B L M, Menon, Bijoy K, van Zwam, Wim H, van Oostenbrugge, Robert J, Demchuk, Andrew M, Guillemin, Francis, Dávalos, Antoni, Butcher, Kenneth S, Cherifi, Aboubaker, Marquering, Henk A, Macho Fernández, Juan M, Oppenheim, Catherine, Roos, Yvo B W E M, Shankar, Jai, Lingsma, Hester, Hernández-Pérez, María, Bharatha, Aditya, Levy, Elad I, Soudant, Marc, Aja, Lucia, Krings, Timo, Tisserand, Marie, San Román, Luis, Tomasello, Alejandro, Brown, Scott, Liebeskind, David S, Bracard, Serge, Dippel, Diederik W J, Jovin, Tudor G, and Hill, Michael D

Published

2019

11. Imaging features and safety and efficacy of endovascular stroke treatment: a meta-analysis of individual patient-level data

Author

Berkhemer, Olvert A, Fransen, Puck SS, Beumer, Debbie, van den Berg, Lucie A, Lingsma, Hester F, Yoo, Albert J, Schonewille, Wouter J, Vos, Jan Albert, Nederkoorn, Paul J, Wermer, Marieke JH, van Walderveen, Marianne AA, Staals, Julie, Hofmeijer, Jeannette, van Oostayen, Jacques A., Lycklama à Nijeholt, Geert J., Boiten, Jelis, Brouwer, Patrick A., Emmer, Bart J., de Bruijn, Sebastiaan F., van Dijk, Lukas C., Kappelle, Jaap, Lo, Rob H, van Dijk, Ewoud J., de Vries, Joost, de Kort, Paul L.M., van Rooij, Willem Jan J., van den Berg, Jan S.P., van Hasselt, Boudewijn A.A.M., Aerden, Leo A.M., Dallinga, René J., Visser, Marieke C., Bot, Joseph C.J., Vroomen, Patrick C., Eshghi, Omid, Schreuder, Tobien H.C.M.L., Heijboer, Roel J.J., Keizer, Koos, Tielbeek, Alexander V., den Hertog, Heleen M., Gerrits, Dick G., van den Berg-Vos, Renske M., Karas, Giorgos B., Steyerberg, Ewout W., Flach, Zwenneke, Marquering, Henk A., Sprengers, Marieke E.S., Jenniskens, Sjoerd F.M., Beenen, Ludo F.M., van den Berg, René, Koudstaal, Peter J., van Zwam, Wim H., Roos, Yvo B.W.E.M., van der Lugt, Aad, van Oostenbrugge, Robert J., Majoie, Charles B.L.M., Dippel, Diederik W.J., Brown, Martin M., Liebig, Thomas, Stijnen, Theo, Andersson, Tommy, Mattle, Heinrich, Wahlgren, Nils, van der Heijden, Esther, Ghannouti, Naziha, Fleitour, Nadine, Hooijenga, Imke, Puppels, Corina, Pellikaan, Wilma, Geerling, Annet, Lindl-Velema, Annemieke, van Vemde, Gina, de Ridder, Ans, Greebe, Paut, de Bont-Stikkelbroeck, José, de Meris, Joke, Janssen, Kirsten, Struijk, Willy, Licher, Silvan, Boodt, Nikki, Ros, Adriaan, Venema, Esmee, Slokkers, Ilse, Ganpat, Raymie-Jayce, Mulder, Maxim, Saiedie, Nawid, Heshmatollah, Alis, Schipperen, Stefanie, Vinken, Stefan, van Boxtel, Tiemen, Koets, Jeroen, Boers, Merel, Santos, Emilie, Borst, Jordi, Jansen, Ivo, Kappelhof, Manon, Lucas, Marit, Geuskens, Ralph, Barros, Renan Sales, Dobbe, Roeland, Csizmadia, Marloes, Hill, MD, Goyal, M, Demchuk, AM, Menon, BK, Eesa, M, Ryckborst, KJ, Wright, MR, Kamal, NR, Andersen, L, Randhawa, PA, Stewart, T, Patil, S, Minhas, P, Almekhlafi, M, Mishra, S, Clement, F, Sajobi, T, Shuaib, A, Montanera, WJ, Roy, D, Silver, FL, Jovin, TG, Frei, DF, Sapkota, B, Rempel, JL, Thornton, J, Williams, D, Tampieri, D, Poppe, AY, Dowlatshahi, D, Wong, JH, Mitha, AP, Subramaniam, S, Hull, G, Lowerison, MW, Salluzzi, M, Maxwell, M, Lacusta, S, Drupals, E, Armitage, K, Barber, PA, Smith, EE, Morrish, WF, Coutts, SB, Derdeyn, C, Demaerschalk, B, Yavagal, D, Martin, R, Brant, R, Yu, Y, Willinsky, RA, Weill, A, Kenney, C, Aram, H, Stys, PK, Watson, TW, Klein, G, Pearson, D, Couillard, P, Trivedi, A, Singh, D, Klourfeld, E, Imoukhuede, O, Nikneshan, D, Blayney, S, Reddy, R, Choi, P, Horton, M, Musuka, T, Dubuc, V, Field, TS, Desai, J, Adatia, S, Alseraya, A, Nambiar, V, van Dijk, R, Newcommon, NJ, Schwindt, B, Butcher, KS, Jeerakathil, T, Buck, B, Khan, K, Naik, SS, Emery, DJ, Owen, RJ, Kotylak, TB, Ashforth, RA, Yeo, TA, McNally, D, Siddiqui, M, Saqqur, M, Hussain, D, Kalashyan, H, Manosalva, A, Kate, M, Gioia, L, Hasan, S, Mohammad, A, Muratoglu, M, Cullen, A, Brennan, P, O'Hare, A, Looby, S, Hyland, D, Duff, S, McCusker, M, Hallinan, B, Lee, S, McCormack, J, Moore, A, O'Connor, M, Donegan, C, Brewer, L, Martin, A, Murphy, S, O'Rourke, K, Smyth, S, Kelly, P, Lynch, T, Daly, T, O'Brien, P, O'Driscoll, A, Martin, M, Collins, R, Coughlan, T, McCabe, D, O'Neill, D, Mulroy, M, Lynch, O, Walsh, T, O'Donnell, M, Galvin, T, Harbison, J, McElwaine, P, Mulpeter, K, McLoughlin, C, Reardon, M, Harkin, E, Dolan, E, Watts, M, Cunningham, N, Fallon, C, Gallagher, S, Cotter, P, Crowe, M, Doyle, R, Noone, I, Lapierre, M, Coté, VA, Lanthier, S, Odier, C, Durocher, A, Raymond, J, Daneault, N, Deschaintre, Y, Jankowitz, B, Baxendell, L, Massaro, L, Jackson-Graves, C, Decesare, S, Porter, P, Armbruster, K, Adams, A, Billigan, J, Oakley, J, Ducruet, A, Jadhav, A, Giurgiutiu, D-V, Aghaebrahim, A, Reddy, V, Hammer, M, Starr, M, Totoraitis, V, Wechsler, L, Streib, S, Rangaraju, S, Campbell, D, Rocha, M, Gulati, D, Krings, T, Kalman, L, Cayley, A, Williams, J, Wiegner, R, Casaubon, LK, Jaigobin, C, del Campo, JM, Elamin, E, Schaafsma, JD, Agid, R, Farb, R, ter Brugge, K, Sapkoda, BL, Baxter, BW, Barton, K, Knox, A, Porter, A, Sirelkhatim, A, Devlin, T, Dellinger, C, Pitiyanuvath, N, Patterson, J, Nichols, J, Quarfordt, S, Calvert, J, Hawk, H, Fanale, C, Bitner, A, Novak, A, Huddle, D, Bellon, R, Loy, D, Wagner, J, Chang, I, Lampe, E, Spencer, B, Pratt, R, Bartt, R, Shine, S, Dooley, G, Nguyen, T, Whaley, M, McCarthy, K, Teitelbaum, J, Poon, W, Campbell, N, Cortes, M, Lum, C, Shamloul, R, Robert, S, Stotts, G, Shamy, M, Steffenhagen, N, Blacquiere, D, Hogan, M, AlHazzaa, M, Basir, G, Lesiuk, H, Iancu, D, Santos, M, Choe, H, Weisman, DC, Jonczak, K, Blue-Schaller, A, Shah, Q, MacKenzie, L, Klein, B, Kulandaivel, K, Kozak, O, Gzesh, DJ, Harris, LJ, Khoury, JS, Mandzia, J, Pelz, D, Crann, S, Fleming, L, Hesser, K, Beauchamp, B, Amato-Marzialli, B, Boulton, M, Lopez-Ojeda, P, Sharma, M, Lownie, S, Chan, R, Swartz, R, Howard, P, Golob, D, Gladstone, D, Boyle, K, Boulos, M, Hopyan, J, Yang, V, Da Costa, L, Holmstedt, CA, Turk, AS, Navarro, R, Jauch, E, Ozark, S, Turner, R, Phillips, S, Shankar, J, Jarrett, J, Gubitz, G, Maloney, W, Vandorpe, R, Schmidt, M, Heidenreich, J, Hunter, G, Kelly, M, Whelan, R, Peeling, L, Burns, PA, Hunter, A, Wiggam, I, Kerr, E, Watt, M, Fulton, A, Gordon, P, Rennie, I, Flynn, P, Smyth, G, O'Leary, S, Gentile, N, Linares, G, McNelis, P, Erkmen, K, Katz, P, Azizi, A, Weaver, M, Jungreis, C, Faro, S, Shah, P, Reimer, H, Kalugdan, V, Saposnik, G, Bharatha, A, Li, Y, Kostyrko, P, Marotta, T, Montanera, W, Sarma, D, Selchen, D, Spears, J, Heo, JH, Jeong, K, Kim, DJ, Kim, BM, Kim, YD, Song, D, Lee, K-J, Yoo, J, Bang, OY, Rho, S, Lee, J, Jeon, P, Kim, KH, Cha, J, Kim, SJ, Ryoo, S, Lee, MJ, Sohn, S-I, Kim, C-H, Ryu, H-G, Hong, J-H, Chang, H-W, Lee, C-Y, Rha, J, Davis, Stephen M, Donnan, Geoffrey A, Campbell, Bruce CV, Mitchell, Peter J, Churilov, Leonid, Yan, Bernard, Dowling, Richard, Yassi, Nawaf, Oxley, Thomas J, Wu, Teddy Y, Silver, Gabriel, McDonald, Amy, McCoy, Rachael, Kleinig, Timothy J, Scroop, Rebecca, Dewey, Helen M, Simpson, Marion, Brooks, Mark, Coulton, Bronwyn, Krause, Martin, Harrington, Timothy J, Steinfort, Brendan, Faulder, Kenneth, Priglinger, Miriam, Day, Susan, Phan, Thanh, Chong, Winston, Holt, Michael, Chandra, Ronil V, Ma, Henry, Young, Dennis, Wong, Kitty, Wijeratne, Tissa, Tu, Hans, Mackay, Elizabeth, Celestino, Sherisse, Bladin, Christopher F, Loh, Poh Sien, Gilligan, Amanda, Ross, Zofia, Coote, Skye, Frost, Tanya, Parsons, Mark W, Miteff, Ferdinand, Levi, Christopher R, Ang, Timothy, Spratt, Neil, Kaauwai, Lara, Badve, Monica, Rice, Henry, de Villiers, Laetitia, Barber, P. Alan, McGuinness, Ben, Hope, Ayton, Moriarty, Maurice, Bennett, Patricia, Wong, Andrew, Coulthard, Alan, Lee, Andrew, Jannes, Jim, Field, Deborah, Sharma, Gagan, Salinas, Simon, Cowley, Elise, Snow, Barry, Kolbe, John, Stark, Richard, King, John, Macdonnell, Richard, Attia, John, D'Este, Cate, Saver, Jeffrey L, Goyal, Mayank, Diener, Hans-Christoph, Levy, Elad I., Bonafé, Alain, Mendes Pereira, Vitor, Jahan, Reza, Albers, Gregory W., Cognard, Christophe, Cohen, David J., Hacke, Werner, Jansen, Olav, Jovin, Tudor G., Mattle, Heinrich P., Nogueira, Raul G., Siddiqui, Adnan H., Yavagal, Dileep R., von Kummer, Rüdiger, Smith, Wade, Turjman, Francis, Hamilton, Scott, Chiacchierini, Richard, Amar, Arun, Sanossian, Nerses, Loh, Yince, Baxter, B, Reddy, VK, Horev, A, Star, M, Siddiqui, A, Hopkins, LN, Snyder, K, Sawyer, R, Hall, S, Costalat, V, Riquelme, C, Machi, P, Omer, E, Arquizan, C, Mourand, I, Charif, M, Ayrignac, X, Menjot de Champfleur, N, Leboucq, N, Gascou, G, Moynier, M, du Mesnil de Rochemont, R, Singer, O, Berkefeld, J, Foerch, C, Lorenz, M, Pfeilschifer, W, Hattingen, E, Wagner, M, You, SJ, Lescher, S, Braun, H, Dehkharghani, S, Belagaje, SR, Anderson, A, Lima, A, Obideen, M, Haussen, D, Dharia, R, Frankel, M, Patel, V, Owada, K, Saad, A, Amerson, L, Horn, C, Doppelheuer, S, Schindler, K, Lopes, DK, Chen, M, Moftakhar, R, Anton, C, Smreczak, M, Carpenter, JS, Boo, S, Rai, A, Roberts, T, Tarabishy, A, Gutmann, L, Brooks, C, Brick, J, Domico, J, Reimann, G, Hinrichs, K, Becker, M, Heiss, E, Selle, C, Witteler, A, Al-Boutros, S, Danch, M-J, Ranft, A, Rohde, S, Burg, K, Weimar, C, Zegarac, V, Hartmann, C, Schlamann, M, Göricke, S, Ringlestein, A, Wanke, I, Mönninghoff, C, Dietzold, M, Budzik, R, Davis, T, Eubank, G, Hicks, WJ, Pema, P, Vora, N, Mejilla, J, Taylor, M, Clark, W, Rontal, A, Fields, J, Peterson, B, Nesbit, G, Lutsep, H, Bozorgchami, H, Priest, R, Ologuntoye, O, Barnwell, S, Dogan, A, Herrick, K, Takahasi, C, Beadell, N, Brown, B, Jamieson, S, Hussain, MS, Russman, A, Hui, F, Wisco, D, Uchino, K, Khawaja, Z, Katzan, I, Toth, G, Cheng-Ching, E, Bain, M, Man, S, Farrag, A, George, P, John, S, Shankar, L, Drofa, A, Dahlgren, R, Bauer, A, Itreat, A, Taqui, A, Cerejo, R, Richmond, A, Ringleb, P, Bendszus, M, Möhlenbruch, M, Reiff, T, Amiri, H, Purrucker, J, Herweh, C, Pham, M, Menn, O, Ludwig, I, Acosta, I, Villar, C, Morgan, W, Sombutmai, C, Hellinger, F, Allen, E, Bellew, M, Gandhi, R, Bonwit, E, Aly, J, Ecker, RD, Seder, D, Morris, J, Skaletsky, M, Belden, J, Baker, C, Connolly, LS, Papanagiotou, P, Roth, C, Kastrup, A, Politi, M, Brunner, F, Alexandrou, M, Merdivan, H, Ramsey, C, Given II, C, Renfrow, S, Deshmukh, V, Sasadeusz, K, Vincent, F, Thiesing, JT, Putnam, J, Bhatt, A, Kansara, A, Caceves, D, Lowenkopf, T, Yanase, L, Zurasky, J, Dancer, S, Freeman, B, Scheibe-Mirek, T, Robison, J, Roll, J, Clark, D, Rodriguez, M, Fitzsimmons, B-FM, Zaidat, O, Lynch, JR, Lazzaro, M, Larson, T, Padmore, L, Das, E, Farrow-Schmidt, A, 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Boutwell, C, Crandall, S, Schwartzman, M, Weinstein, C, Brion, B, Prothmann, S, Kleine, J, Kreiser, K, Boeckh-Behrens, T, Poppert, H, Wunderlich, S, Koch, ML, Biberacher, V, Huberle, A, Gora-Stahlberg, G, Knier, B, Meindl, T, Utpadel-Fischler, D, Zech, M, Kowarik, M, Seifert, C, Schwaiger, B, Puri, A, Hou, S, Wakhloo, A, Moonis, M, Henniger, N, Goddeau, R, Massari, F, Minaeian, A, Lozano, JD, Ramzan, M, Stout, C, Patel, A, Tunguturi, A, Onteddu, S, Carandang, R, Howk, M, Ribó, M, Sanjuan, E, Rubiera, M, Pagola, J, Flores, A, Muchada, M, Meler, P, Huerga, E, Gelabert, S, Coscojuela, P, Tomasello, A, Rodriguez, D, Santamarina, E, Maisterra, O, Boned, S, Seró, L, Rovira, A, Molina, CA, Millán, M, Muñoz, L, Pérez de la Ossa, N, Gomis, M, Dorado, L, López-Cancio, E, Palomeras, E, Munuera, J, García Bermejo, P, Remollo, S, Castaño, C, García-Sort, R, Cuadras, P, Puyalto, P, Hernández-Pérez, M, Jiménez, M, Martínez-Piñeiro, A, Lucente, G, Dávalos, A, Chamorro, A, Urra, X, Obach, V, Cervera, A, Amaro, S, Llull, L, Codas, J, Balasa, M, Navarro, J, Ariño, H, Aceituno, A, Rudilosso, S, Renu, A, Macho, JM, San Roman, L, Blasco, J, López, A, Macías, N, Cardona, P, Quesada, H, Rubio, F, Cano, L, Lara, B, de Miquel, MA, Aja, L, Serena, J, Cobo, E, Albers, Gregory W, Lees, Kennedy R, Arenillas, J, Roberts, R, Al-Ajlan, F, Zimmel, L, Patel, S, Martí-Fàbregas, J, Salvat-Plana, M, Bracard, S, Ducrocq, Xavier, Anxionnat, René, Baillot, Pierre-Alexandre, Barbier, Charlotte, Derelle, Anne-Laure, Lacour, Jean-Christophe, Richard, Sébastien, Samson, Yves, Sourour, Nader, Baronnet-Chauvet, Flore, Clarencon, Frédéric, Crozier, Sophie, Deltour, Sandrine, Di Maria, Federico, Le Bouc, Raphael, Leger, Anne, Mutlu, Gurkan, Rosso, Charlotte, Szatmary, Zoltan, Yger, Marion, Zavanone, Chiara, Bakchine, Serge, Pierot, Laurent, Caucheteux, Nathalie, Estrade, Laurent, Kadziolka, Krzysztof, Leautaud, Alexandre, Renkes, Céline, Serre, Isabelle, Desal, Hubert, Guillon, Benoît, Boutoleau-Bretonniere, Claire, Daumas-Duport, Benjamin, De Gaalon, Solène, Derkinderen, Pascal, Evain, Sarah, Herisson, Fanny, Laplaud, David-Axel, Lebouvier, Thibaud, Lintia-Gaultier, Alina, Pouclet-Courtemanche, Hélène, Rouaud, Tiphaine, Rouaud Jaffrenou, Violaine, Schunck, Aurélia, Sevin-Allouet, Mathieu, Toulgoat, Frederique, Wiertlewski, Sandrine, Gauvrit, Jean-Yves, Ronziere, Thomas, Cahagne, Vincent, Ferre, Jean-Christophe, Pinel, Jean-François, Raoult, Hélène, Mas, Jean-Louis, Meder, Jean-François, Al Najjar-Carpentier, Amen-Adam, Birchenall, Julia, Bodiguel, Eric, Calvet, David, Domigo, Valérie, Godon-Hardy, Sylvie, Guiraud, Vincent, Lamy, Catherine, Majhadi, Loubna, Morin, Ludovic, Naggara, Olivier, Trystram, Denis, Turc, Guillaume, Berge, Jérôme, Sibon, Igor, Menegon, Patrice, Barreau, Xavier, Rouanet, François, Debruxelles, Sabrina, Kazadi, Annabelle, Renou, Pauline, Fleury, Olivier, Pasco-Papon, Anne, Dubas, Frédéric, Caroff, Jildaz, Godard Ducceschi, Sophie, Hamon, Marie-Aurélie, Lecluse, Alderic, Marc, Guillaume, Giroud, Maurice, Ricolfi, Frédéric, Bejot, Yannick, Chavent, Adrien, Gentil, Arnaud, Kazemi, Apolline, Osseby, Guy-Victor, Voguet, Charlotte, Mahagne, Marie-Hélène, Sedat, Jacques, Chau, Yves, Suissa, Laurent, Lachaud, Sylvain, Houdart, Emmanuel, Stapf, Christian, Buffon Porcher, Frédérique, Chabriat, Hugues, Guedin, Pierre, Herve, Dominique, Jouvent, Eric, Mawet, Jérôme, Saint-Maurice, Jean-Pierre, Schneble, Hans-Martin, Nighoghossian, Norbert, Berhoune, Nadia-Nawel, Bouhour, Françoise, Cho, Tae-Hee, Derex, Laurent, Felix, Sandra, Gervais-Bernard, Hélène, Gory, Benjamin, Manera, Luis, Mechtouff, Laura, Ritzenthaler, Thomas, Riva, Roberto, Salaris Silvio, Fabrizio, Tilikete, Caroline, Blanc, Raphael, Obadia, Michaël, Bartolini, Mario Bruno, Gueguen, Antoine, Piotin, Michel, Pistocchi, Silvia, Redjem, Hocine, Drouineau, Jacques, Neau, Jean-Philippe, Godeneche, Gaelle, Lamy, Matthias, Marsac, Emilia, Velasco, Stephane, Clavelou, Pierre, Chabert, Emmanuel, Bourgois, Nathalie, Cornut-Chauvinc, Catherine, Ferrier, Anna, Gabrillargues, Jean, Jean, Betty, Marques, Anna-Raquel, Vitello, Nicolas, Detante, Olivier, Barbieux, Marianne, Boubagra, Kamel, Favre Wiki, Isabelle, Garambois, Katia, Tahon, Florence, Ashok, Vasdev, Coskun, Oguzhan, Rodesch, Georges, Lapergue, Bertrand, Bourdain, Frédéric, Evrard, Serge, Graveleau, Philippe, Decroix, Jean Pierre, Wang, Adrien, Sellal, François, Ahle, Guido, Carelli, Gabriela, Dugay, Marie-Hélène, Gaultier, Claude, Lebedinsky, Ariel Pablo, Lita, Lavinia, Musacchio, Raul Mariano, Renglewicz-Destuynder, Catherine, Tournade, Alain, Vuillemet, Françis, Montoro, Francisco Macian, Mounayer, Charbel, Faugeras, Frederic, Gimenez, Laetitia, Labach, Catherine, Lautrette, Géraldine, Denier, Christian, Saliou, Guillaume, Chassin, Olivier, Dussaule, Claire, Melki, Elsa, Ozanne, Augustin, Puccinelli, Francesco, Sachet, Marina, Sarov, Mariana, Bonneville, Jean-François, Moulin, Thierry, Biondi, Alessandra, De Bustos Medeiros, Elisabeth, Vuillier, Fabrice, Courtheoux, Patrick, Viader, Fausto, Apoil-Brissard, Marion, Bataille, Mathieu, Bonnet, Anne-Laure, Cogez, Julien, Touze, Emmanuel, Leclerc, Xavier, Leys, Didier, Aggour, Mohamed, Aguettaz, Pierre, Bodenant, Marie, Cordonnier, Charlotte, Deplanque, Dominique, Girot, Marie, Henon, Hilde, Kalsoum, Erwah, Lucas, Christian, Pruvo, Jean-Pierre, Zuniga, Paolo, Arquizan, Caroline, Costalat, Vincent, Machi, Paolo, Mourand, Isabelle, Riquelme, Carlos, Bounolleau, Pierre, Arteaga, Charles, Faivre, Anthony, Bintner, Marc, Tournebize, Patrice, Charlin, Cyril, Darcel, Françoise, Gauthier-Lasalarie, Pascale, Jeremenko, Marcia, Mouton, Servane, Zerlauth, Jean-Baptiste, Lamy, Chantal, Hervé, Deramond, Hassan, Hosseini, Gaston, André, Barral, Francis-Guy, Garnier, Pierre, Beaujeux, Rémy, Wolff, Valérie, Herbreteau, Denis, Debiais, Séverine, Murray, Alicia, Ford, Gary, Muir, Keith W, White, Philip, Brown, Martin M, Clifton, Andy, Freeman, Janet, Ford, Ian, Markus, Hugh, Wardlaw, Joanna, Molyneux, Andy, Robinson, Thompson, Lewis, Steff, Norrie, John, Robertson, Fergus, Perry, Richard, Dixit, Anand, Cloud, Geoffrey, Clifton, Andrew, Madigan, Jeremy, Roffe, Christine, Nayak, Sanjeev, Lobotesis, Kyriakos, Smith, Craig, Herwadkar, Amit, Kandasamy, Naga, Goddard, Tony, Bamford, John, Subramanian, Ganesh, Lenthall, Rob, Littleton, Edward, Lamin, Sal, Storey, Kelley, Ghatala, Rita, Banaras, Azra, Aeron-Thomas, John, Hazel, Bath, Maguire, Holly, Veraque, Emelda, Harrison, Louise, Keshvara, Rekha, Cunningham, James, Román, Luis San, Menon, Bijoy K, Blasco, Jordi, Hernández-Pérez, María, Dávalos, Antoni, Majoie, Charles B L M, Campbell, Bruce C V, Guillemin, Francis, Lingsma, Hester, Epstein, Jonathan, Marquering, Henk, Wong, John H, Lopes, Demetrius, Reimann, Gernot, Dippel, Diederik W J, Coutts, Shelagh, du Mesnil de Rochemont, Richard, Yavagal, Dileep, Ferre, Jean Christophe, Roos, Yvo B W E M, Liebeskind, David S, Lenthall, Robert, Molina, Carlos, Al Ajlan, Fahad S, Reddy, Vivek, Dowlatshahi, Dar, Sourour, Nader-Antoine, Oppenheim, Catherine, Mitha, Alim P, Weimar, Christian, van Oostenbrugge, Robert J, Cobo, Erik, Demchuk, Andrew M, Boers, Anna M M, Ford, Gary A, Brown, B Scott, Jovin, Tudor, van Zwam, Wim H, Hill, Michael D, White, Phil, and Bracard, Serge

Published

2018

12. Effect of general anaesthesia on functional outcome in patients with anterior circulation ischaemic stroke having endovascular thrombectomy versus standard care: a meta-analysis of individual patient data

Author

Berkhemer, Olvert A, Fransen, Puck SS, Beumer, Debbie, van den Berg, Lucie A, Lingsma, Hester F, Yoo, Albert J, Schonewille, Wouter J, Vos, Jan Albert, Nederkoorn, Paul J, Wermer, Marieke JH, van Walderveen, Marianne AA, Staals, Julie, Hofmeijer, Jeannette, van Oostayen, Jacques A., Lycklama à Nijeholt, Geert J., Boiten, Jelis, Brouwer, Patrick A., Emmer, Bart J., de Bruijn, Sebastiaan F., van Dijk, Lukas C., Kappelle, Jaap, Lo, Rob H, van Dijk, Ewoud J., de Vries, Joost, de Kort, Paul L.M., van Rooij, Willem Jan J., van den Berg, Jan S.P., van Hasselt, Boudewijn A.A.M., Aerden, Leo A.M., Dallinga, René J., Visser, Marieke C., Bot, Joseph C.J., Vroomen, Patrick C., Eshghi, Omid, Schreuder, Tobien H.C.M.L., Heijboer, Roel J.J., Keizer, Koos, Tielbeek, Alexander V., den Hertog, Heleen M., Gerrits, Dick G., van den Berg-Vos, Renske M., Karas, Giorgos B., Steyerberg, Ewout W., Flach, Zwenneke, Marquering, Henk A., Sprengers, Marieke E.S., Jenniskens, Sjoerd F.M., Beenen, Ludo F.M., van den Berg, René, Koudstaal, Peter J., van Zwam, Wim H., Roos, Yvo B.W.E.M., van der Lugt, Aad, van Oostenbrugge, Robert J., Majoie, Charles B.L.M., Dippel, Diederik W.J., Brown, Martin M., Liebig, Thomas, Stijnen, Theo, Andersson, Tommy, Mattle, Heinrich, Wahlgren, Nils, van der Heijden, Esther, Ghannouti, Naziha, Fleitour, Nadine, Hooijenga, Imke, Puppels, Corina, Pellikaan, Wilma, Geerling, Annet, Lindl-Velema, Annemieke, van Vemde, Gina, de Ridder, Ans, Greebe, Paut, de Bont-Stikkelbroeck, José, de Meris, Joke, Janssen, Kirsten, Struijk, Willy, Licher, Silvan, Boodt, Nikki, Ros, Adriaan, Venema, Esmee, Slokkers, Ilse, Ganpat, Raymie-Jayce, Mulder, Maxim, Saiedie, Nawid, Heshmatollah, Alis, Schipperen, Stefanie, Vinken, Stefan, van Boxtel, Tiemen, Koets, Jeroen, Boers, Merel, Santos, Emilie, Borst, Jordi, Jansen, Ivo, Kappelhof, Manon, Lucas, Marit, Geuskens, Ralph, Barros, Renan Sales, Dobbe, Roeland, Csizmadia, Marloes, Hill, MD, Goyal, M, Demchuk, AM, Menon, BK, Eesa, M, Ryckborst, KJ, Wright, MR, Kamal, NR, Andersen, L, Randhawa, PA, Stewart, T, Patil, S, Minhas, P, Almekhlafi, M, Mishra, S, Clement, F, Sajobi, T, Shuaib, A, Montanera, WJ, Roy, D, Silver, FL, Jovin, TG, Frei, DF, Sapkota, B, Rempel, JL, Thornton, J, Williams, D, Tampieri, D, Poppe, AY, Dowlatshahi, D, Wong, JH, Mitha, AP, Subramaniam, S, Hull, G, Lowerison, MW, Salluzzi, M, Maxwell, M, Lacusta, S, Drupals, E, Armitage, K, Barber, PA, Smith, EE, Morrish, WF, Coutts, SB, Derdeyn, C, Demaerschalk, B, Yavagal, D, Martin, R, Brant, R, Yu, Y, Willinsky, RA, Weill, A, Kenney, C, Aram, H, Stys, PK, Watson, TW, Klein, G, Pearson, D, Couillard, P, Trivedi, A, Singh, D, Klourfeld, E, Imoukhuede, O, Nikneshan, D, Blayney, S, Reddy, R, Choi, P, Horton, M, Musuka, T, Dubuc, V, Field, TS, Desai, J, Adatia, S, Alseraya, A, Nambiar, V, van Dijk, R, Newcommon, NJ, Schwindt, B, Butcher, KS, Jeerakathil, T, Buck, B, Khan, K, Naik, SS, Emery, DJ, Owen, RJ, Kotylak, TB, Ashforth, RA, Yeo, TA, McNally, D, Siddiqui, M, Saqqur, M, Hussain, D, Kalashyan, H, Manosalva, A, Kate, M, Gioia, L, Hasan, S, Mohammad, A, Muratoglu, M, Cullen, A, Brennan, P, O'Hare, A, Looby, S, Hyland, D, Duff, S, McCusker, M, Hallinan, B, Lee, S, McCormack, J, Moore, A, O'Connor, M, Donegan, C, Brewer, L, Martin, A, Murphy, S, O'Rourke, K, Smyth, S, Kelly, P, Lynch, T, Daly, T, O'Brien, P, O'Driscoll, A, Martin, M, Collins, R, Coughlan, T, McCabe, D, O'Neill, D, Mulroy, M, Lynch, O, Walsh, T, O'Donnell, M, Galvin, T, Harbison, J, McElwaine, P, Mulpeter, K, McLoughlin, C, Reardon, M, Harkin, E, Dolan, E, Watts, M, Cunningham, N, Fallon, C, Gallagher, S, Cotter, P, Crowe, M, Doyle, R, Noone, I, Lapierre, M, Coté, VA, Lanthier, S, Odier, C, Durocher, A, Raymond, J, Daneault, N, Deschaintre, Y, Jankowitz, B, Baxendell, L, Massaro, L, Jackson-Graves, C, Decesare, S, Porter, P, Armbruster, K, Adams, A, Billigan, J, Oakley, J, Ducruet, A, Jadhav, A, Giurgiutiu, D-V, Aghaebrahim, A, Reddy, V, Hammer, M, Starr, M, Totoraitis, V, Wechsler, L, Streib, S, Rangaraju, S, Campbell, D, Rocha, M, Gulati, D, Krings, T, Kalman, L, Cayley, A, Williams, J, Wiegner, R, Casaubon, LK, Jaigobin, C, del Campo, JM, Elamin, E, Schaafsma, JD, Agid, R, Farb, R, ter Brugge, K, Sapkoda, BL, Baxter, BW, Barton, K, Knox, A, Porter, A, Sirelkhatim, A, Devlin, T, Dellinger, C, Pitiyanuvath, N, Patterson, J, Nichols, J, Quarfordt, S, Calvert, J, Hawk, H, Fanale, C, Bitner, A, Novak, A, Huddle, D, Bellon, R, Loy, D, Wagner, J, Chang, I, Lampe, E, Spencer, B, Pratt, R, Bartt, R, Shine, S, Dooley, G, Nguyen, T, Whaley, M, McCarthy, K, Teitelbaum, J, Poon, W, Campbell, N, Cortes, M, Lum, C, Shamloul, R, Robert, S, Stotts, G, Shamy, M, Steffenhagen, N, Blacquiere, D, Hogan, M, AlHazzaa, M, Basir, G, Lesiuk, H, Iancu, D, Santos, M, Choe, H, Weisman, DC, Jonczak, K, Blue-Schaller, A, Shah, Q, MacKenzie, L, Klein, B, Kulandaivel, K, Kozak, O, Gzesh, DJ, Harris, LJ, Khoury, JS, Mandzia, J, Pelz, D, Crann, S, Fleming, L, Hesser, K, Beauchamp, B, Amato-Marzialli, B, Boulton, M, Lopez- Ojeda, P, Sharma, M, Lownie, S, Chan, R, Swartz, R, Howard, P, Golob, D, Gladstone, D, Boyle, K, Boulos, M, Hopyan, J, Yang, V, Da Costa, L, Holmstedt, CA, Turk, AS, Navarro, R, Jauch, E, Ozark, S, Turner, R, Phillips, S, Shankar, J, Jarrett, J, Gubitz, G, Maloney, W, Vandorpe, R, Schmidt, M, Heidenreich, J, Hunter, G, Kelly, M, Whelan, R, Peeling, L, Burns, PA, Hunter, A, Wiggam, I, Kerr, E, Watt, M, Fulton, A, Gordon, P, Rennie, I, Flynn, P, Smyth, G, O'Leary, S, Gentile, N, Linares, G, McNelis, P, Erkmen, K, Katz, P, Azizi, A, Weaver, M, Jungreis, C, Faro, S, Shah, P, Reimer, H, Kalugdan, V, Saposnik, G, Bharatha, A, Li, Y, Kostyrko, P, Marotta, T, Montanera, W, Sarma, D, Selchen, D, Spears, J, Heo, JH, Jeong, K, Kim, DJ, Kim, BM, Kim, YD, Song, D, Lee, K-J, Yoo, J, Bang, OY, Rho, S, Lee, J, Jeon, P, Kim, KH, Cha, J, Kim, SJ, Ryoo, S, Lee, MJ, Sohn, S-I, Kim, C-H, Ryu, H-G, Hong, J-H, Chang, H-W, Lee, C-Y, Rha, J, Davis, Stephen M, Donnan, Geoffrey A, Campbell, Bruce CV, Mitchell, Peter J, Churilov, Leonid, Yan, Bernard, Dowling, Richard, Yassi, Nawaf, Oxley, Thomas J, Wu, Teddy Y, Silver, Gabriel, McDonald, Amy, McCoy, Rachael, Kleinig, Timothy J, Scroop, Rebecca, Dewey, Helen M, Simpson, Marion, Brooks, Mark, Coulton, Bronwyn, Krause, Martin, Harrington, Timothy J, Steinfort, Brendan, Faulder, Kenneth, Priglinger, Miriam, Day, Susan, Phan, Thanh, Chong, Winston, Holt, Michael, Chandra, Ronil V, Ma, Henry, Young, Dennis, Wong, Kitty, Wijeratne, Tissa, Tu, Hans, Mackay, Elizabeth, Celestino, Sherisse, Bladin, Christopher F, Loh, Poh Sien, Gilligan, Amanda, Ross, Zofia, Coote, Skye, Frost, Tanya, Parsons, Mark W, Miteff, Ferdinand, Levi, Christopher R, Ang, Timothy, Spratt, Neil, Kaauwai, Lara, Badve, Monica, Rice, Henry, de Villiers, Laetitia, Barber, P. Alan, McGuinness, Ben, Hope, Ayton, Moriarty, Maurice, Bennett, Patricia, Wong, Andrew, Coulthard, Alan, Lee, Andrew, Jannes, Jim, Field, Deborah, Sharma, Gagan, Salinas, Simon, Cowley, Elise, Snow, Barry, Kolbe, John, Stark, Richard, King, John, Macdonnell, Richard, Attia, John, D'Este, Cate, Saver, Jeffrey L, Goyal, Mayank, Diener, Hans-Christoph, Levy, Elad I., Bonafé, Alain, Mendes Pereira, Vitor, Jahan, Reza, Albers, Gregory W., Cognard, Christophe, Cohen, David J., Hacke, Werner, Jansen, Olav, Jovin, Tudor G., Mattle, Heinrich P., Nogueira, Raul G., Siddiqui, Adnan H., Yavagal, Dileep R., von Kummer, Rüdiger, Smith, Wade, Turjman, Francis, Hamilton, Scott, Chiacchierini, Richard, Amar, Arun, Sanossian, Nerses, Loh, Yince, Baxter, B, Reddy, VK, Horev, A, Star, M, Siddiqui, A, Hopkins, LN, Snyder, K, Sawyer, R, Hall, S, Costalat, V, Riquelme, C, Machi, P, Omer, E, Arquizan, C, Mourand, I, Charif, M, Ayrignac, X, Menjot de Champfleur, N, Leboucq, N, Gascou, G, Moynier, M, du Mesnil de Rochemont, R, Singer, O, Berkefeld, J, Foerch, C, Lorenz, M, Pfeilschifer, W, Hattingen, E, Wagner, M, You, SJ, Lescher, S, Braun, H, Dehkharghani, S, Belagaje, SR, Anderson, A, Lima, A, Obideen, M, Haussen, D, Dharia, R, Frankel, M, Patel, V, Owada, K, Saad, A, Amerson, L, Horn, C, Doppelheuer, S, Schindler, K, Lopes, DK, Chen, M, Moftakhar, R, Anton, C, Smreczak, M, Carpenter, JS, Boo, S, Rai, A, Roberts, T, Tarabishy, A, Gutmann, L, Brooks, C, Brick, J, Domico, J, Reimann, G, Hinrichs, K, Becker, M, Heiss, E, Selle, C, Witteler, A, Al-Boutros, S, Danch, M-J, Ranft, A, Rohde, S, Burg, K, Weimar, C, Zegarac, V, Hartmann, C, Schlamann, M, Göricke, S, Ringlestein, A, Wanke, I, Mönninghoff, C, Dietzold, M, Budzik, R, Davis, T, Eubank, G, Hicks, WJ, Pema, P, Vora, N, Mejilla, J, Taylor, M, Clark, W, Rontal, A, Fields, J, Peterson, B, Nesbit, G, Lutsep, H, Bozorgchami, H, Priest, R, Ologuntoye, O, Barnwell, S, Dogan, A, Herrick, K, Takahasi, C, Beadell, N, Brown, B, Jamieson, S, Hussain, MS, Russman, A, Hui, F, Wisco, D, Uchino, K, Khawaja, Z, Katzan, I, Toth, G, Cheng-Ching, E, Bain, M, Man, S, Farrag, A, George, P, John, S, Shankar, L, Drofa, A, Dahlgren, R, Bauer, A, Itreat, A, Taqui, A, Cerejo, R, Richmond, A, Ringleb, P, Bendszus, M, Möhlenbruch, M, Reiff, T, Amiri, H, Purrucker, J, Herweh, C, Pham, M, Menn, O, Ludwig, I, Acosta, I, Villar, C, Morgan, W, Sombutmai, C, Hellinger, F, Allen, E, Bellew, M, Gandhi, R, Bonwit, E, Aly, J, Ecker, RD, Seder, D, Morris, J, Skaletsky, M, Belden, J, Baker, C, Connolly, LS, Papanagiotou, P, Roth, C, Kastrup, A, Politi, M, Brunner, F, Alexandrou, M, Merdivan, H, Ramsey, C, Given II, C, Renfrow, S, Deshmukh, V, Sasadeusz, K, Vincent, F, Thiesing, JT, Putnam, J, Bhatt, A, Kansara, A, Caceves, D, Lowenkopf, T, Yanase, L, Zurasky, J, Dancer, S, Freeman, B, Scheibe-Mirek, T, Robison, J, Roll, J, Clark, D, Rodriguez, M, Fitzsimmons, B-FM, Zaidat, O, Lynch, JR, Lazzaro, M, Larson, T, Padmore, L, Das, E, Farrow-Schmidt, A, Hassan, A, Tekle, W, Cate, C, Jansen, O, Cnyrim, C, Wodarg, F, Wiese, C, Binder, A, Riedel, C, Rohr, A, Lang, N, Laufs, H, Krieter, S, Remonda, L, Diepers, M, Añon, J, Nedeltchev, K, Kahles, T, Biethahn, S, Lindner, M, Chang, V, Gächter, C, Esperon, C, Guglielmetti, M, Arenillas Lara, JF, Martínez Galdámez, M, Calleja Sanz, AI, Cortijo Garcia, E, Garcia Bermejo, P, Perez, S, Mulero Carrillo, P, Crespo Vallejo, E, Ruiz Piñero, M, Lopez Mesonero, L, Reyes Muñoz, FJ, Brekenfeld, C, Buhk, J-H, Krützelmann, A, Thomalla, G, Cheng, B, Beck, C, Hoppe, J, Goebell, E, Holst, B, Grzyska, U, Wortmann, G, Starkman, S, Duckwiler, G, Jahan, R, Rao, N, Sheth, S, Ng, K, Noorian, A, Szeder, V, Nour, M, McManus, M, Huang, J, Tarpley, J, Tateshima, S, Gonzalez, N, Ali, L, Liebeskind, D, Hinman, J, Calderon-Arnulphi, M, Liang, C, Guzy, J, Koch, S, DeSousa, K, Gordon-Perue, G, Elhammady, M, Peterson, E, Pandey, V, Dharmadhikari, S, Khandelwal, P, Malik, A, Pafford, R, Gonzalez, P, Ramdas, K, Andersen, G, Damgaard, D, Von Weitzel-Mudersbach, P, Simonsen, C, Ruiz de Morales Ayudarte, N, Poulsen, M, Sørensen, L, Karabegovich, S, Hjørringgaard, M, Hjort, N, Harbo, T, Sørensen, K, Deshaies, E, Padalino, D, Swarnkar, A, Latorre, JG, Elnour, E, El-Zammar, Z, Villwock, M, Farid, H, Balgude, A, Cross, L, Hansen, K, Holtmannspötter, M, Kondziella, D, Hoejgaard, J, Taudorf, S, Soendergaard, H, Wagner, A, Cronquist, M, Stavngaard, T, Cortsen, M, Krarup, LH, Hyldal, T, Haring, H-P, Guggenberger, S, Hamberger, M, Trenkler, J, Sonnberger, M, Nussbaumer, K, Dominger, C, Bach, E, Jagadeesan, BD, Taylor, R, Kim, J, Shea, K, Tummala, R, Zacharatos, H, Sandhu, D, Ezzeddine, M, Grande, A, Hildebrandt, D, Miller, K, Scherber, J, Hendrickson, A, Jumaa, M, Zaidi, S, Hendrickson, T, Snyder, V, Killer-Oberpfalzer, M, Mutzenbach, J, Weymayr, F, Broussalis, E, Stadler, K, Jedlitschka, A, Malek, A, Mueller-Kronast, N, Beck, P, Martin, C, Summers, D, Day, J, Bettinger, I, Holloway, W, Olds, K, Arkin, S, Akhtar, N, Boutwell, C, Crandall, S, Schwartzman, M, Weinstein, C, Brion, B, Prothmann, S, Kleine, J, Kreiser, K, Boeckh-Behrens, T, Poppert, H, Wunderlich, S, Koch, ML, Biberacher, V, Huberle, A, Gora-Stahlberg, G, Knier, B, Meindl, T, Utpadel-Fischler, D, Zech, M, Kowarik, M, Seifert, C, Schwaiger, B, Puri, A, Hou, S, Wakhloo, A, Moonis, M, Henninger, N, Goddeau, R, Massari, F, Minaeian, A, Lozano, JD, Ramzan, M, Stout, C, Patel, A, Tunguturi, A, Onteddu, S, Carandang, R, Howk, M, Ribó, M, Sanjuan, E, Rubiera, M, Pagola, J, Flores, A, Muchada, M, Meler, P, Huerga, E, Gelabert, S, Coscojuela, P, Tomasello, A, Rodriguez, D, Santamarina, E, Maisterra, O, Boned, S, Seró, L, Rovira, A, Molina, CA, Millán, M, Muñoz, L, Pérez de la Ossa, N, Gomis, M, Dorado, L, López-Cancio, E, Palomeras, E, Munuera, J, García Bermejo, P, Remollo, S, Castaño, C, García-Sort, R, Cuadras, P, Puyalto, P, Hernández-Pérez, M, Jiménez, M, Martínez-Piñeiro, A, Lucente, G, Dávalos, A, Chamorro, A, Urra, X, Obach, V, Cervera, A, Amaro, S, Llull, L, Codas, J, Balasa, M, Navarro, J, Ariño, H, Aceituno, A, Rudilosso, S, Renu, A, Macho, JM, San Roman, L, Blasco, J, López, A, Macías, N, Cardona, P, Quesada, H, Rubio, F, Cano, L, Lara, B, de Miquel, MA, Aja, L, Serena, J, Cobo, E, Albers, Gregory W, Lees, Kennedy R, Arenillas, J, Roberts, R, Al-Ajlan, F, Zimmel, L, Patel, S, Martí-Fàbregas, J, Salvat-Plana, M, Bracard, S, Ducrocq, Xavier, Anxionnat, René, Baillot, Pierre-Alexandre, Barbier, Charlotte, Derelle, Anne-Laure, Lacour, Jean-Christophe, Richard, Sébastien, Samson, Yves, Sourour, Nader, Baronnet-Chauvet, Flore, Clarencon, Frédéric, Crozier, Sophie, Deltour, Sandrine, Di Maria, Federico, Le Bouc, Raphael, Leger, Anne, Mutlu, Gurkan, Rosso, Charlotte, Szatmary, Zoltan, Yger, Marion, Zavanone, Chiara, Bakchine, Serge, Pierot, Laurent, Caucheteux, Nathalie, Estrade, Laurent, Kadziolka, Krzysztof, Leautaud, Alexandre, Renkes, Céline, Serre, Isabelle, Desal, Hubert, Guillon, Benoît, Boutoleau-Bretonniere, Claire, Daumas-Duport, Benjamin, De Gaalon, Solène, Derkinderen, Pascal, Evain, Sarah, Herisson, Fanny, Laplaud, David-Axel, Lebouvier, Thibaud, Lintia-Gaultier, Alina, Pouclet-Courtemanche, Hélène, Rouaud, Tiphaine, Rouaud Jaffrenou, Violaine, Schunck, Aurélia, Sevin-Allouet, Mathieu, Toulgoat, Frederique, Wiertlewski, Sandrine, Gauvrit, Jean-Yves, Ronziere, Thomas, Cahagne, Vincent, Ferre, Jean-Christophe, Pinel, Jean-François, Raoult, Hélène, Mas, Jean-Louis, Meder, Jean-François, Al Najjar-Carpentier, Amen-Adam, Birchenall, Julia, Bodiguel, Eric, Calvet, David, Domigo, Valérie, Godon-Hardy, Sylvie, Guiraud, Vincent, Lamy, Catherine, Majhadi, Loubna, Morin, Ludovic, Naggara, Olivier, Trystram, Denis, Turc, Guillaume, Berge, Jérôme, Sibon, Igor, Menegon, Patrice, Barreau, Xavier, Rouanet, François, Debruxelles, Sabrina, Kazadi, Annabelle, Renou, Pauline, Fleury, Olivier, Pasco-Papon, Anne, Dubas, Frédéric, Caroff, Jildaz, Godard Ducceschi, Sophie, Hamon, Marie-Aurélie, Lecluse, Alderic, Marc, Guillaume, Giroud, Maurice, Ricolfi, Frédéric, Bejot, Yannick, Chavent, Adrien, Gentil, Arnaud, Kazemi, Apolline, Osseby, Guy-Victor, Voguet, Charlotte, Mahagne, Marie-Hélène, Sedat, Jacques, Chau, Yves, Suissa, Laurent, Lachaud, Sylvain, Houdart, Emmanuel, Stapf, Christian, Buffon Porcher, Frédérique, Chabriat, Hugues, Guedin, Pierre, Herve, Dominique, Jouvent, Eric, Mawet, Jérôme, Saint-Maurice, Jean-Pierre, Schneble, Hans-Martin, Nighoghossian, Norbert, Berhoune, Nadia-Nawel, Bouhour, Françoise, Cho, Tae-Hee, Derex, Laurent, Felix, Sandra, Gervais-Bernard, Hélène, Gory, Benjamin, Manera, Luis, Mechtouff, Laura, Ritzenthaler, Thomas, Riva, Roberto, Salaris Silvio, Fabrizio, Tilikete, Caroline, Blanc, Raphael, Obadia, Michaël, Bartolini, Mario Bruno, Gueguen, Antoine, Piotin, Michel, Pistocchi, Silvia, Redjem, Hocine, Drouineau, Jacques, Neau, Jean-Philippe, Godeneche, Gaelle, Lamy, Matthias, Marsac, Emilia, Velasco, Stephane, Clavelou, Pierre, Chabert, Emmanuel, Bourgois, Nathalie, Cornut-Chauvinc, Catherine, Ferrier, Anna, Gabrillargues, Jean, Jean, Betty, Marques, Anna-Raquel, Vitello, Nicolas, Detante, Olivier, Barbieux, Marianne, Boubagra, Kamel, Favre Wiki, Isabelle, Garambois, Katia, Tahon, Florence, Ashok, Vasdev, Coskun, Oguzhan, Rodesch, Georges, Lapergue, Bertrand, Bourdain, Frédéric, Evrard, Serge, Graveleau, Philippe, Decroix, Jean Pierre, Wang, Adrien, Sellal, François, Ahle, Guido, Carelli, Gabriela, Dugay, Marie-Hélène, Gaultier, Claude, Lebedinsky, Ariel Pablo, Lita, Lavinia, Musacchio, Raul Mariano, Renglewicz-Destuynder, Catherine, Tournade, Alain, Vuillemet, Françis, Montoro, Francisco Macian, Mounayer, Charbel, Faugeras, Frederic, Gimenez, Laetitia, Labach, Catherine, Lautrette, Géraldine, Denier, Christian, Saliou, Guillaume, Chassin, Olivier, Dussaule, Claire, Melki, Elsa, Ozanne, Augustin, Puccinelli, Francesco, Sachet, Marina, Sarov, Mariana, Bonneville, Jean-François, Moulin, Thierry, Biondi, Alessandra, De Bustos Medeiros, Elisabeth, Vuillier, Fabrice, Courtheoux, Patrick, Viader, Fausto, Apoil-Brissard, Marion, Bataille, Mathieu, Bonnet, Anne-Laure, Cogez, Julien, Touze, Emmanuel, Leclerc, Xavier, Leys, Didier, Aggour, Mohamed, Aguettaz, Pierre, Bodenant, Marie, Cordonnier, Charlotte, Deplanque, Dominique, Girot, Marie, Henon, Hilde, Kalsoum, Erwah, Lucas, Christian, Pruvo, Jean-Pierre, Zuniga, Paolo, Arquizan, Caroline, Costalat, Vincent, Machi, Paolo, Mourand, Isabelle, Riquelme, Carlos, Bounolleau, Pierre, Arteaga, Charles, Faivre, Anthony, Bintner, Marc, Tournebize, Patrice, Charlin, Cyril, Darcel, Françoise, Gauthier-Lasalarie, Pascale, Jeremenko, Marcia, Mouton, Servane, Zerlauth, Jean-Baptiste, Lamy, Chantal, Hervé, Deramond, Hassan, Hosseini, Gaston, André, Barral, Francis-Guy, Garnier, Pierre, Beaujeux, Rémy, Wolff, Valérie, Herbreteau, Denis, Debiais, Séverine, Murray, Alicia, Ford, Gary, Muir, Keith W, White, Philip, Brown, Martin M, Clifton, Andy, Freeman, Janet, Ford, Ian, Markus, Hugh, Wardlaw, Joanna, Molyneux, Andy, Robinson, Thompson, Lewis, Steff, Norrie, John, Robertson, Fergus, Perry, Richard, Dixit, Anand, Cloud, Geoffrey, Clifton, Andrew, Madigan, Jeremy, Roffe, Christine, Nayak, Sanjeev, Lobotesis, Kyriakos, Smith, Craig, Herwadkar, Amit, Kandasamy, Naga, Goddard, Tony, Bamford, John, Subramanian, Ganesh, Lenthall, Rob, Littleton, Edward, Lamin, Sal, Storey, Kelley, Ghatala, Rita, Banaras, Azra, Aeron-Thomas, John, Hazel, Bath, Maguire, Holly, Veraque, Emelda, Harrison, Louise, Keshvara, Rekha, Cunningham, James, Campbell, Bruce C V, van Zwam, Wim H, Menon, Bijoy K, Dippel, Diederik W J, Demchuk, Andrew M, Bracard, Serge, Dávalos, Antoni, Majoie, Charles B L M, Ford, Gary A, de la Ossa, Natalia Pérez, Kelly, Michael, Bourcier, Romain, Roos, Yvo B W E M, Bang, Oh Young, Nogueira, Raul G, Devlin, Thomas G, Clarençon, Frédéric, Burns, Paul, Carpenter, Jeffrey, Yavagal, Dileep R, Pereira, Vitor Mendes, Quesada, Helena, Epstein, Jonathan, Rubiera, Marta, Urra, Xabier, Micard, Emilien, Brown, Scott, Guillemin, Francis, van Oostenbrugge, Robert J, Jovin, Tudor G, and Hill, Michael D

Published

2018

13. Giant reed growth and effects on soil biological fertility in assisted phytoremediation of an industrial polluted soil

Author

Fiorentino, N., Ventorino, V., Rocco, C., Cenvinzo, V., Agrelli, D., Gioia, L., Di Mola, I., Adamo, P., Pepe, O., and Fagnano, M.

Published

2017

14. Potentiation of fluoroquinolone and macrolide activities by efflux pump inhibitory effect on Staphylococcus aureus and Streptococcus pyogenes of new benzyl piperazinyl lysine derivatives

Author

Musumeci, R, Martinelli, M, Giubbi, C, Perdoni, F, Romerio, A, Vertemara, J, De Gioia, L, Peri, F, Cocuzza, CE, Musumeci, R, Martinelli, M, Giubbi, C, Perdoni, F, Romerio, A, Vertemara, J, De Gioia, L, Peri, F, and Cocuzza, C

Subjects

MED/07 - MICROBIOLOGIA E MICROBIOLOGIA CLINICA, New and non-traditional drug, Antimicrobial resistance (AMR), Efflux Pump Inhibitors

Published

2023

15. Toward Diiron Dithiolato Biomimetics with Rotated Conformation of the [FeFe]-Hydrogenase Active Site: A DFT Case Study on Electron-Rich, Isocyanide-Based Scaffolds

Author

Arrigoni, F, Rizza, F, Bertini, L, De Gioia, L, Zampella, G, Arrigoni F., Rizza F., Bertini L., De Gioia L., Zampella G., Arrigoni, F, Rizza, F, Bertini, L, De Gioia, L, Zampella, G, Arrigoni F., Rizza F., Bertini L., De Gioia L., and Zampella G.

Abstract

The electron rich Fe2(pdt)(RNC)6 1 (pdt=CH2(CH2S−)2) has been used as starting point for a DFT multi-functional study to assess the feasibility of designing a stable inverted (or rotated) disposition of the two FeL3 pyramidal moieties in the dimetallic core, a key feature of [FeFe]-hydrogenase cofactor. The choice of 1 was motivated by the presence of a rotated form in solution, slightly less stable than the unrotated stereoisomer. Aimed to find an upgraded version of 1, featuring the rotated isomer as ground state, various combinations of factors have been tested, for their effect on the relative stability of rotated vs unrotated isomers. The general result is that combining coordination asymmetry, electron donor presence and isocyanides R substituents able to establish intramolecular interactions is effective in stabilizing the rotated isomer. Our DFT study may inspire the design of synthetic biomimetics, with improved resemblance to the natural system.

Published

2022

16. Fluorescence of KCl Aqueous Solution: A Possible Spectroscopic Signature of Nucleation

Author

Villa, A, Doglia, S, De Gioia, L, Natalello, A, Bertini, L, Villa A. M., Doglia S. M., De Gioia L., Natalello A., Bertini L., Villa, A, Doglia, S, De Gioia, L, Natalello, A, Bertini, L, Villa A. M., Doglia S. M., De Gioia L., Natalello A., and Bertini L.

Abstract

Ion pairing in water solutions alters both the water hydrogen-bond network and ion solvation, modifying the dynamics and properties of electrolyte water solutions. Here, we report an anomalous intrinsic fluorescence of KCl aqueous solution at room temperature and show that its intensity increases with the salt concentration. From the ab initio density functional theory (DFT) and time-dependent DFT modeling, we propose that the fluorescence emission could originate from the stiffening of the hydrogen bond network in the hydration shell of solvated ion-pairs that suppresses the fast nonradiative decay and allows the slower radiative channel to become a possible decay pathway. Because computations suggest that the fluorophores are the local ion-water structures present in the prenucleation phase, this band could be the signature of the incoming salt precipitation.

Published

2022

17. Normal vs. Inverted Ordering of Reduction Potentials in [FeFe]-Hydrogenases Biomimetics: Effect of the Dithiolate Bulk

Author

Arrigoni, F, De Gioia, L, Elleouet, C, Pétillon, F, Schollhammer, P, Talarmin, J, Zampella, G, Arrigoni, Federica, De Gioia, Luca, Elleouet, Catherine, Pétillon, François Y, Schollhammer, Philippe, Talarmin, Jean, Zampella, Giuseppe, Arrigoni, F, De Gioia, L, Elleouet, C, Pétillon, F, Schollhammer, P, Talarmin, J, Zampella, G, Arrigoni, Federica, De Gioia, Luca, Elleouet, Catherine, Pétillon, François Y, Schollhammer, Philippe, Talarmin, Jean, and Zampella, Giuseppe

Abstract

Three hexacarbonyl diiron dithiolate complexes [Fe2(CO)6(µ-(SCH2)2X)] with different substituted bridgeheads (X = CH2, CEt2, CBn2 (Bn = CH2C6H5)), have been studied under the same experimental conditions by cyclic voltammetry in dichloromethane [NBu4][PF6] 0.2 M. DFT calculations were performed to rationalize the mechanism of reduction of these compounds. The three complexes undergo a two-electron transfer whose the mechanism depend on the bulkiness of the dithiolate bridge, which involves a different timing of the structural changes (Fe-S bond cleavage, inversion of conformation and CO bridging) vs redox steps. The introduction of a bulky group in the dithiolate linker has obviously an effect on normally ordered (as for propanedithiolate (pdt)) or inverted (pdtEt2, pdtBn2) reduction potentials. Et → CH2Ph replacement is not theoretically predicted to alter the geometry and energy of the most stable mono-reduced and bi-reduced forms but such a replacement alters the kinetics of the electron transfer vs the structural changes.

Published

2023

18. Assessing the Performance of Non-Equilibrium Thermodynamic Integration in Flavodoxin Redox Potential Estimation

Author

Silvestri, G, Arrigoni, F, Persico, F, Bertini, L, Zampella, G, De Gioia, L, Vertemara, J, Silvestri, Giuseppe, Arrigoni, Federica, Persico, Francesca, Bertini, Luca, Zampella, Giuseppe, De Gioia, Luca, Vertemara, Jacopo, Silvestri, G, Arrigoni, F, Persico, F, Bertini, L, Zampella, G, De Gioia, L, Vertemara, J, Silvestri, Giuseppe, Arrigoni, Federica, Persico, Francesca, Bertini, Luca, Zampella, Giuseppe, De Gioia, Luca, and Vertemara, Jacopo

Abstract

Flavodoxins are enzymes that contain the redox-active flavin mononucleotide (FMN) cofactor and play a crucial role in numerous biological processes, including energy conversion and electron transfer. Since the redox characteristics of flavodoxins are significantly impacted by the molecular environment of the FMN cofactor, the evaluation of the interplay between the redox properties of the flavin cofactor and its molecular surroundings in flavoproteins is a critical area of investigation for both fundamental research and technological advancements, as the electrochemical tuning of flavoproteins is necessary for optimal interaction with redox acceptor or donor molecules. In order to facilitate the rational design of biomolecular devices, it is imperative to have access to computational tools that can accurately predict the redox potential of both natural and artificial flavoproteins. In this study, we have investigated the feasibility of using non-equilibrium thermodynamic integration protocols to reliably predict the redox potential of flavodoxins. Using as a test set the wild-type flavodoxin from Clostridium Beijerinckii and eight experimentally characterized single-point mutants, we have computed their redox potential. Our results show that 75% (6 out of 8) of the calculated reaction free energies are within 1 kcal/mol of the experimental values, and none exceed an error of 2 kcal/mol, confirming that non-equilibrium thermodynamic integration is a trustworthy tool for the quantitative estimation of the redox potential of this biologically and technologically significant class of enzymes.

Published

2023

19. Activation of the N2 molecule by means of low-valence complexes of calcium and magnesium

Author

Rovaletti, A, De Gioia, L, Greco, C, Arrigoni, F, Rovaletti, Anna, De Gioia, Luca, Greco, Claudio, Arrigoni, Federica, Rovaletti, A, De Gioia, L, Greco, C, Arrigoni, F, Rovaletti, Anna, De Gioia, Luca, Greco, Claudio, and Arrigoni, Federica

Abstract

Nitrogen gas is a highly inert molecule and its activation under mild conditions represents a crucial goal in current research. In a recent study, the discovery of low-valence Ca(i) compounds capable of coordinating and reducing N2 was reported [B. Rösch, T. X. Gentner, J. Langer, C. Färber, J. Eyselein, L. Zhao, C. Ding, G. Frenking and S. Harder, Science, 2021, 371, 1125]. The study of low-valence alkaline earth complexes represents a new horizon in inorganic chemistry and demonstrates examples of spectacular reactivity. For example, complexes of the [BDI]2Mg2 type are selective reducing reagents in both organic and inorganic synthesis reactions. To date, however, no activity of Mg(i) complexes in the activation of the nitrogen molecule has been reported. By computational studies, in the present work, we investigated the analogies and differences of low-valence Ca(i) and Mg(i) complexes in the coordination, activation and protonation of N2. We have shown that the possibility of alkaline earth metals to employ atomic orbitals of the d type is reflected in the differences in the N2 binding energy and its coordination mode (end-on vs. side-on), as well as in the spin state of the resulting adduct (singlet vs. triplet). These divergences are finally observed in the subsequent protonation reaction, which turned out to be prohibitive in the presence of Mg.

Published

2023

20. Selective events at individual sites underlie the evolution of monkeypox virus clades

Author

Molteni, C, Forni, D, Cagliani, R, Arrigoni, F, Pozzoli, U, De Gioia, L, Sironi, M, Molteni, Cristian, Forni, Diego, Cagliani, Rachele, Arrigoni, Federica, Pozzoli, Uberto, De Gioia, Luca, Sironi, Manuela, Molteni, C, Forni, D, Cagliani, R, Arrigoni, F, Pozzoli, U, De Gioia, L, Sironi, M, Molteni, Cristian, Forni, Diego, Cagliani, Rachele, Arrigoni, Federica, Pozzoli, Uberto, De Gioia, Luca, and Sironi, Manuela

Abstract

In endemic regions (West Africa and the Congo Basin), the genetic diversity of monkeypox virus (MPXV) is geographically structured into two major clades (Clades I and II) that differ in virulence and host associations. Clade IIb is closely related to the B.1 lineage, which is dominating a worldwide outbreak initiated in 2022. Lineage B.1 has however accumulated mutations of unknown significance that most likely result from apolipoprotein B mRNA editing catalytic polypeptide-like 3 (APOBEC3) editing. We applied a population genetics - phylogenetics approach to investigate the evolution of MPXV during historical viral spread in Africa and to infer the distribution of fitness effects. We observed a high preponderance of codons evolving under strong purifying selection, particularly in viral genes involved in morphogenesis and replication or transcription. However, signals of positive selection were also detected and were enriched in genes involved in immunomodulation and/or virulence. In particular, several genes showing evidence of positive selection were found to hijack different steps of the cellular pathway that senses cytosolic DNA. Also, a few selected sites in genes that are not directly involved in immunomodulation are suggestive of antibody escape or other immune-mediated pressures. Because orthopoxvirus host range is primarily determined by the interaction with the host immune system, we suggest that the positive selection signals represent signatures of host adaptation and contribute to the different virulence of Clade I and II MPXVs. We also used the calculated selection coefficients to infer the effects of mutations that define the predominant human MPXV1 (hMPXV1) lineage B.1, as well as the changes that have been accumulating during the worldwide outbreak. Results indicated that a proportion of deleterious mutations were purged from the predominant outbreak lineage, whose spread was not driven by the presence of beneficial changes. Polymorphic mutations w

Published

2023

21. Conjugation of gold nanoparticles with multidentate surfactants for enhanced stability and biological properties

Author

Rotem, R, Giustra, M, Arrigoni, F, Bertolini, J, Garbujo, S, Rizzuto, M, Salvioni, L, Barbieri, L, Bertini, L, De Gioia, L, Colombo, M, Prosperi, D, Bertolini, JA, Rizzuto, MA, Rotem, R, Giustra, M, Arrigoni, F, Bertolini, J, Garbujo, S, Rizzuto, M, Salvioni, L, Barbieri, L, Bertini, L, De Gioia, L, Colombo, M, Prosperi, D, Bertolini, JA, and Rizzuto, MA

Abstract

This work originated from the need to functionalize surfactant-coated inorganic nanoparticles for biomedical applications, a process that is limited by excess unbound surfactant. These limitations are connected to the bioconjugation of targeting molecules that are often in equilibrium between the free aliquot in solution and that which binds the surface of the nanoparticles. The excess in solution can play a role in the biocompatability in vitro and in vivo of the final nanoparticles stock. For this purpose, we tested the ability of common surfactants - monothiolated polyethylene glycol and amphiphilic polymers - to colloidally stabilize nanoparticles as excess surfactant is removed and compared them to newly appearing multidentate surfactants endowed with high avidity for inorganic nanoparticles. Our results showed that monothiolated polyethylene glycol or amphiphilic polymers have an insufficient affinity to the nanoparticles and as the excess surfactant is removed the colloidal stability is lost, while multidentate high-avidity surfactants excel in the same regard, possibly allowing improvement in an array of nanoparticle applications, especially in those stated.

Published

2023

22. Recent Theoretical Insights into the Oxidative Degradation of Biopolymers and Plastics by Metalloenzymes

Author

Rovaletti, A, De Gioia, L, Fantucci, P, Greco, C, Vertemara, J, Zampella, G, Arrigoni, F, Bertini, L, Rovaletti, Anna, De Gioia, Luca, Fantucci, Piercarlo, Greco, Claudio, Vertemara, Jacopo, Zampella, Giuseppe, Arrigoni, Federica, Bertini, Luca, Rovaletti, A, De Gioia, L, Fantucci, P, Greco, C, Vertemara, J, Zampella, G, Arrigoni, F, Bertini, L, Rovaletti, Anna, De Gioia, Luca, Fantucci, Piercarlo, Greco, Claudio, Vertemara, Jacopo, Zampella, Giuseppe, Arrigoni, Federica, and Bertini, Luca

Abstract

Molecular modeling techniques have become indispensable in many fields of molecular sciences in which the details related to mechanisms and reactivity need to be studied at an atomistic level. This review article provides a collection of computational modeling works on a topic of enormous interest and urgent relevance: the properties of metalloenzymes involved in the degradation and valorization of natural biopolymers and synthetic plastics on the basis of both circular biofuel production and bioremediation strategies. In particular, we will focus on lytic polysaccharide monooxygenase, laccases, and various heme peroxidases involved in the processing of polysaccharides, lignins, rubbers, and some synthetic polymers. Special attention will be dedicated to the interaction between these enzymes and their substrate studied at different levels of theory, starting from classical molecular docking and molecular dynamics techniques up to techniques based on quantum chemistry.

Published

2023

23. A De Novo-Designed Type 3 Copper Protein Tunes Catechol Substrate Recognition and Reactivity

Author

Pirro, F, La Gatta, S, Arrigoni, F, Famulari, A, Maglio, O, Del Vecchio, P, Chiesa, M, De Gioia, L, Bertini, L, Chino, M, Nastri, F, Lombardi, A, Pirro, Fabio, La Gatta, Salvatore, Arrigoni, Federica, Famulari, Antonino, Maglio, Ornella, Del Vecchio, Pompea, Chiesa, Mario, De Gioia, Luca, Bertini, Luca, Chino, Marco, Nastri, Flavia, Lombardi, Angela, Pirro, F, La Gatta, S, Arrigoni, F, Famulari, A, Maglio, O, Del Vecchio, P, Chiesa, M, De Gioia, L, Bertini, L, Chino, M, Nastri, F, Lombardi, A, Pirro, Fabio, La Gatta, Salvatore, Arrigoni, Federica, Famulari, Antonino, Maglio, Ornella, Del Vecchio, Pompea, Chiesa, Mario, De Gioia, Luca, Bertini, Luca, Chino, Marco, Nastri, Flavia, and Lombardi, Angela

Abstract

De novo metalloprotein design is a remarkable approach to shape protein scaffolds toward specific functions. Here, we report the design and characterization of Due Rame 1 (DR1), a de novo designed protein housing a di-copper site and mimicking the Type 3 (T3) copper-containing polyphenol oxidases (PPOs). To achieve this goal, we hierarchically designed the first and the second di-metal coordination spheres to engineer the di-copper site into a simple four-helix bundle scaffold. Spectroscopic, thermodynamic, and functional characterization revealed that DR1 recapitulates the T3 copper site, supporting different copper redox states, and being active in the O2-dependent oxidation of catechols to o-quinones. Careful design of the residues lining the substrate access site endows DR1 with substrate recognition, as revealed by Hammet analysis and computational studies on substituted catechols. This study represents a premier example in the construction of a functional T3 copper site into a designed four-helix bundle protein.

Published

2023

24. HEALTH RELATED QUALITY OF LIFE OF HYPERTENSIVE WITH REFRACTORY ANGINA

Author

De Rosa, M.L., Ferrante, L., Gioia, L., and Ferrara, N.

Published

2019

25. Adaptation of the endemic coronaviruses HCoV-OC43 and HCoV-229E to the human host

Author

Forni, D, Cagliani, R, Arrigoni, F, Benvenuti, M, Mozzi, A, Pozzoli, U, Clerici, M, de Gioia, L, Sironi, M, Forni D., Cagliani R., Arrigoni F., Benvenuti M., Mozzi A., Pozzoli U., Clerici M., de Gioia L., Sironi M., Forni, D, Cagliani, R, Arrigoni, F, Benvenuti, M, Mozzi, A, Pozzoli, U, Clerici, M, de Gioia, L, Sironi, M, Forni D., Cagliani R., Arrigoni F., Benvenuti M., Mozzi A., Pozzoli U., Clerici M., de Gioia L., and Sironi M.

Abstract

Four coronaviruses (HCoV-OC43, HCoV-HKU1, HCoV-NL63, and HCoV-229E) are endemic in human populations. All these viruses are seasonal and generate short-term immunity. Like the highly pathogenic coronaviruses, the endemic coronaviruses have zoonotic origins. Thus, understanding the evolutionary dynamics of these human viruses might provide insight into the future trajectories of SARS-CoV-2 evolution. Because the zoonotic sources of HCoV-OC43 and HCoV-229E are known, we applied a population genetics–phylogenetic approach to investigate which selective events accompanied the divergence of these viruses from the animal ones. Results indicated that positive selection drove the evolution of some accessory proteins, as well as of the membrane proteins. However, the spike proteins of both viruses and the hemagglutinin-esterase (HE) of HCoV-OC43 represented the major selection targets. Specifically, for both viruses, most positively selected sites map to the receptor-binding domains (RBDs) and are polymorphic. Molecular dating for the HCoV-229E spike protein indicated that RBD Classes I, II, III, and IV emerged 3–9 years apart. However, since the appearance of Class V (with much higher binding affinity), around 25 years ago, limited genetic diversity accumulated in the RBD. These different time intervals are not fully consistent with the hypothesis that HCoV-229E spike evolution was driven by antigenic drift. An alternative, not mutually exclusive possibility is that strains with higher affinity for the cellular receptor have out-competed strains with lower affinity. The evolution of the HCoV-OC43 spike protein was also suggested to undergo antigenic drift. However, we also found abundant signals of positive selection in HE. Whereas such signals might result from antigenic drift, as well, previous data showing co-evolution of the spike protein with HE suggest that optimization for human cell infection also drove the evolution of this virus. These data provide insight into th

Published

2021

26. Photochemistry and photoinhibition of the H-cluster of FeFe hydrogenases

Author

Sensi, M, Baffert, C, Fourmond, V, De Gioia, L, Bertini, L, Leger, C, Sensi M., Baffert C., Fourmond V., De Gioia L., Bertini L., Leger C., Sensi, M, Baffert, C, Fourmond, V, De Gioia, L, Bertini, L, Leger, C, Sensi M., Baffert C., Fourmond V., De Gioia L., Bertini L., and Leger C.

Abstract

Hydrogenases are enzymes that catalyze the oxidation and production of molecular hydrogen. For about fifteen years, there have been many reports about the successful connection of these enzymes to photosensitizers with the aim of designing H2 photoproduction systems, but relatively little attention has been paid to whether and why illumination may affect the catalytic properties of the enzyme. In all hydrogenases, hydrogen activation occurs at an inorganic active site that includes at least one Fe-carbonyl motif, which may make it sensitive to irradiation. Here we review the evidence that hydrogenases are indeed photosensitive. We focus mainly on the so-called FeFe hydrogenases; their active site, called the H-cluster, consists of a [4Fe4S] cluster that is bound by a cysteine sulfur to a diiron site. The iron atoms of the binuclear cluster are coordinated by carbonyl and cyanide ligands and an azadithiolate group. We describe the effects of UV-visible light irradiation on the enzyme under cryogenic or turnover conditions and the photoreactivity of model complexes that mimic the diiron site. We emphasize the dependence of the photochemical processes on wavelength, and warn about FeFe hydrogenase photoinhibition, which should probably be considered when attempts are made to use FeFe hydrogenases for the artificial photosynthesis of solar fuels. We also underline the relevance of studies of synthetic mimics of the H-cluster for understanding at atomistic level the photochemical processes observed in the enzyme.

Published

2021

27. Characterization of the p.L145F and p.S135N Mutations in SOD1: Impact on the Metabolism of Fibroblasts Derived from Amyotrophic Lateral Sclerosis Patients

Author

Perciballi, E, Bovio, F, Rosati, J, Arrigoni, F, D'Anzi, A, Lattante, S, Gelati, M, De Marchi, F, Lombardi, I, Ruotolo, G, Forcella, M, Mazzini, L, D'Alfonso, S, Corrado, L, Sabatelli, M, Conte, A, De Gioia, L, Martino, S, Vescovi, A, Fusi, P, Ferrari, D, Perciballi, Elisa, Bovio, Federica, Rosati, Jessica, Arrigoni, Federica, D'Anzi, Angela, Lattante, Serena, Gelati, Maurizio, De Marchi, Fabiola, Lombardi, Ivan, Ruotolo, Giorgia, Forcella, Matilde, Mazzini, Letizia, D'Alfonso, Sandra, Corrado, Lucia, Sabatelli, Mario, Conte, Amelia, De Gioia, Luca, Martino, Sabata, Vescovi, Angelo Luigi, Fusi, Paola, Ferrari, Daniela, Perciballi, E, Bovio, F, Rosati, J, Arrigoni, F, D'Anzi, A, Lattante, S, Gelati, M, De Marchi, F, Lombardi, I, Ruotolo, G, Forcella, M, Mazzini, L, D'Alfonso, S, Corrado, L, Sabatelli, M, Conte, A, De Gioia, L, Martino, S, Vescovi, A, Fusi, P, Ferrari, D, Perciballi, Elisa, Bovio, Federica, Rosati, Jessica, Arrigoni, Federica, D'Anzi, Angela, Lattante, Serena, Gelati, Maurizio, De Marchi, Fabiola, Lombardi, Ivan, Ruotolo, Giorgia, Forcella, Matilde, Mazzini, Letizia, D'Alfonso, Sandra, Corrado, Lucia, Sabatelli, Mario, Conte, Amelia, De Gioia, Luca, Martino, Sabata, Vescovi, Angelo Luigi, Fusi, Paola, and Ferrari, Daniela

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the loss of the upper and lower motor neurons (MNs). About 10% of patients have a family history (familial, fALS); however, most patients seem to develop the sporadic form of the disease (sALS). SOD1 (Cu/Zn superoxide dismutase-1) is the first studied gene among the ones related to ALS. Mutant SOD1 can adopt multiple misfolded conformation, lose the correct coordination of metal binding, decrease structural stability, and form aggregates. For all these reasons, it is complicated to characterize the conformational alterations of the ALS-associated mutant SOD1, and how they relate to toxicity. In this work, we performed a multilayered study on fibroblasts derived from two ALS patients, namely SOD1L145F and SOD1S135N, carrying the p.L145F and the p.S135N missense variants, respectively. The patients showed diverse symptoms and disease progression in accordance with our bioinformatic analysis, which predicted the different effects of the two mutations in terms of protein structure. Interestingly, both mutations had an effect on the fibroblast energy metabolisms. However, while the SOD1L145F fibroblasts still relied more on oxidative phosphorylation, the SOD1S135N fibroblasts showed a metabolic shift toward glycolysis. Our study suggests that SOD1 mutations might lead to alterations in the energy metabolism.

Published

2022

28. Dating the Emergence of Human Endemic Coronaviruses

Author

Forni, D, Cagliani, R, Pozzoli, U, Mozzi, A, Arrigoni, F, De Gioia, L, Clerici, M, Sironi, M, Forni, Diego, Cagliani, Rachele, Pozzoli, Uberto, Mozzi, Alessandra, Arrigoni, Federica, De Gioia, Luca, Clerici, Mario, Sironi, Manuela, Forni, D, Cagliani, R, Pozzoli, U, Mozzi, A, Arrigoni, F, De Gioia, L, Clerici, M, Sironi, M, Forni, Diego, Cagliani, Rachele, Pozzoli, Uberto, Mozzi, Alessandra, Arrigoni, Federica, De Gioia, Luca, Clerici, Mario, and Sironi, Manuela

Abstract

Four endemic coronaviruses infect humans and cause mild symptoms. Because previous analyses were based on a limited number of sequences and did not control for effects that affect molecular dating, we re-assessed the timing of endemic coronavirus emergence. After controlling for recombination, selective pressure, and molecular clock model, we obtained similar tMRCA (time to the most recent common ancestor) estimates for the four coronaviruses, ranging from 72 (HCoV-229E) to 54 (HCoV-NL63) years ago. The split times of HCoV-229E and HCoV-OC43 from camel alphacoronavirus and bovine coronavirus were dated ~268 and ~99 years ago. The split times of HCoV-HKU1 and HCoV-NL63 could not be calculated, as their zoonoticic sources are unknown. To compare the timing of coronavirus emergence to that of another respiratory virus, we recorded the occurrence of influenza pandemics since 1500. Although there is no clear relationship between pandemic occurrence and human population size, the frequency of influenza pandemics seems to intensify starting around 1700, which corresponds with the initial phase of exponential increase of human population and to the emergence of HCoV-229E. The frequency of flu pandemics in the 19th century also suggests that the concurrence of HCoV-OC43 emergence and the Russian flu pandemic may be due to chance.

Published

2022

29. Homology-based classification of accessory proteins in coronavirus genomes uncovers extremely dynamic evolution of gene content

Author

Forni, D, Cagliani, R, Molteni, C, Arrigoni, F, Mozzi, A, Clerici, M, De Gioia, L, Sironi, M, Forni, Diego, Cagliani, Rachele, Molteni, Cristian, Arrigoni, Federica, Mozzi, Alessandra, Clerici, Mario, De Gioia, Luca, Sironi, Manuela, Forni, D, Cagliani, R, Molteni, C, Arrigoni, F, Mozzi, A, Clerici, M, De Gioia, L, Sironi, M, Forni, Diego, Cagliani, Rachele, Molteni, Cristian, Arrigoni, Federica, Mozzi, Alessandra, Clerici, Mario, De Gioia, Luca, and Sironi, Manuela

Abstract

Coronaviruses (CoVs) have complex genomes that encode a fixed array of structural and nonstructural components, as well as a variety of accessory proteins that differ even among closely related viruses. Accessory proteins often play a role in the suppression of immune responses and may represent virulence factors. Despite their relevance for CoV phenotypic variability, information on accessory proteins is fragmentary. We applied a systematic approach based on homology detection to create a comprehensive catalogue of accessory proteins encoded by CoVs. Our analyses grouped accessory proteins into 379 orthogroups and 12 super-groups. No orthogroup was shared by the four CoV genera and very few were present in all or most viruses in the same genus, reflecting the dynamic evolution of CoV genomes. We observed differences in the distribution of accessory proteins in CoV genera. Alphacoronaviruses harboured the largest diversity of accessory open reading frames (ORFs), deltacoronaviruses the smallest. However, the average number of accessory proteins per genome was highest in betacoronaviruses. Analysis of the evolutionary history of some orthogroups indicated that the different CoV genera adopted similar evolutionary strategies. Thus, alphacoronaviruses and betacoronaviruses acquired phosphodiesterases and spike-like accessory proteins independently, whereas horizontal gene transfer from reoviruses endowed betacoronaviruses and deltacoronaviruses with fusion-associated small transmembrane (FAST) proteins. Finally, analysis of accessory ORFs in annotated CoV genomes indicated ambiguity in their naming. This complicates cross-communication among researchers and hinders automated searches of large data sets (e.g., PubMed, GenBank). We suggest that orthogroup membership is used together with a naming system to provide information on protein function.

Published

2022

30. Exome Sequencing in an ADSHE Family: VUS Identification and Limits

Author

Villa, C, Arrigoni, F, Rivellini, E, Lavitrano, M, De Gioia, L, Ferini-Strambi, L, Combi, R, Villa, Chiara, Arrigoni, Federica, Rivellini, Eleonora, Lavitrano, Marialuisa, De Gioia, Luca, Ferini-Strambi, Luigi, Combi, Romina, Villa, C, Arrigoni, F, Rivellini, E, Lavitrano, M, De Gioia, L, Ferini-Strambi, L, Combi, R, Villa, Chiara, Arrigoni, Federica, Rivellini, Eleonora, Lavitrano, Marialuisa, De Gioia, Luca, Ferini-Strambi, Luigi, and Combi, Romina

Abstract

Autosomal dominant sleep-related hypermotor epilepsy (ADSHE) is the familial form of a focal epilepsy characterized by hyperkinetic focal seizures, mainly arising during non-rapid eye movements (NREM) sleep. Mutations associated with ADSHE account for a small proportion of the genetically determined cases, suggesting the existence of other disease-causing genes. Here, we reported the results obtained by performing trio-based whole-exome sequencing (WES) in an Italian family showing ADSHE and investigated the structural impact of putative variants by in silico modeling analysis. We identified a p.(Trp276Gly) variant in MOXD1 gene encoding the monooxigenase DBH like 1 protein, cosegregating with the disease and annotated as VUS under the ACMG recommendations. Structural bioinformatic analysis predicted a high destabilizing effect of this variant, due to the loss of important hydrophilic bonds and an expansion of cavity volume in the protein hydrophobic core. Although our data support a functional effect of the p.(Trp276Gly) variant, we highlight the need to identify additional families carrying MOXD1 mutations or functional analyses in suitable models to clarify its role in ADSHE pathogenesis. Moreover, we discuss the importance of VUS reporting due to the low rate of pathogenic variant identification by NGS in epilepsy and for future reinterpretation studies.

Published

2022

31. Machine Learning for Efficient Prediction of Protein Redox Potential: The Flavoproteins Case

Author

Galuzzi, B, Mirarchi, A, Viganò, E, De Gioia, L, Damiani, C, Arrigoni, F, Galuzzi, Bruno Giovanni, Mirarchi, Antonio, Viganò, Edoardo Luca, De Gioia, Luca, Damiani, Chiara, Arrigoni, Federica, Galuzzi, B, Mirarchi, A, Viganò, E, De Gioia, L, Damiani, C, Arrigoni, F, Galuzzi, Bruno Giovanni, Mirarchi, Antonio, Viganò, Edoardo Luca, De Gioia, Luca, Damiani, Chiara, and Arrigoni, Federica

Abstract

Determining the redox potentials of protein cofactors and how they are influenced by their molecular neighborhoods is essential for basic research and many biotechnological applications, from biosensors and biocatalysis to bioremediation and bioelectronics. The laborious determination of redox potential with current experimental technologies pushes forward the need for computational approaches that can reliably predict it. Although current computational approaches based on quantum and molecular mechanics are accurate, their large computational costs hinder their usage. In this work, we explored the possibility of using more efficient QSPR models based on machine learning (ML) for the prediction of protein redox potential, as an alternative to classical approaches. As a proof of concept, we focused on flavoproteins, one of the most important families of enzymes directly involved in redox processes. To train and test different ML models, we retrieved a dataset of flavoproteins with a known midpoint redox potential (Em) and 3D structure. The features of interest, accounting for both short- and long-range effects of the protein matrix on the flavin cofactor, have been automatically extracted from each protein PDB file. Our best ML model (XGB) has a performance error below 1 kcal/mol (∼36 mV), comparing favorably to more sophisticated computational approaches. We also provided indications on the features that mostly affect the Emvalue, and when possible, we rationalized them on the basis of previous studies.

Published

2022

32. Characterization of the p.L145F and p.S135N Mutations in SOD1: Impact on the Metabolism of Fibroblasts Derived from Amyotrophic Lateral Sclerosis Patients

Author

Perciballi, E., Bovio, F., Rosati, J., Arrigoni, F., D'Anzi, A., Lattante, Serena, Gelati, M., De Marchi, F., Lombardi, I., Ruotolo, G., Forcella, M., Mazzini, L., D'Alfonso, S., Corrado, L., Sabatelli, Mario, Conte, A., De Gioia, L., Martino, S., Vescovi, A. L., Fusi, P., Ferrari, D., Lattante S. (ORCID:0000-0003-2891-0340), Sabatelli M. (ORCID:0000-0001-6635-4985), Perciballi, E., Bovio, F., Rosati, J., Arrigoni, F., D'Anzi, A., Lattante, Serena, Gelati, M., De Marchi, F., Lombardi, I., Ruotolo, G., Forcella, M., Mazzini, L., D'Alfonso, S., Corrado, L., Sabatelli, Mario, Conte, A., De Gioia, L., Martino, S., Vescovi, A. L., Fusi, P., Ferrari, D., Lattante S. (ORCID:0000-0003-2891-0340), and Sabatelli M. (ORCID:0000-0001-6635-4985)

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the loss of the upper and lower motor neurons (MNs). About 10% of patients have a family history (familial, fALS); however, most patients seem to develop the sporadic form of the disease (sALS). SOD1 (Cu/Zn superoxide dismutase-1) is the first studied gene among the ones related to ALS. Mutant SOD1 can adopt multiple misfolded conformation, lose the correct coordination of metal binding, decrease structural stability, and form aggregates. For all these reasons, it is complicated to characterize the conformational alterations of the ALS-associated mutant SOD1, and how they relate to toxicity. In this work, we performed a multilayered study on fibroblasts derived from two ALS patients, namely SOD1L145F and SOD1S135N, carrying the p.L145F and the p.S135N missense variants, respectively. The patients showed diverse symptoms and disease progression in accordance with our bioinformatic analysis, which predicted the different effects of the two mutations in terms of protein structure. Interestingly, both mutations had an effect on the fibroblast energy metabolisms. However, while the SOD1L145F fibroblasts still relied more on oxidative phosphorylation, the SOD1S135N fibroblasts showed a metabolic shift toward glycolysis. Our study suggests that SOD1 mutations might lead to alterations in the energy metabolism.

Published

2022

33. NCCT Markers of Intracerebral Hemorrhage Expansion Using Revised Criteria: An External Validation of Their Predictive Accuracy.

Author

Ducroux, C., Nehme, A., Rioux, B., Panzini, M.-A., Fahed, R., Gioia, L. C., and Létourneau-Guillon, L.

Published

2023

34. An evaluation of the dot-ELISA procedure as a diagnostic test in an area with a high prevalence of human Toxocara canis infection

Author

María V Bojanich, Gioia L Marino, María Á López, and José M Alonso

Subjects

Toxocara canis, dot-ELISA, immunoassay, serodiagnosis, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

The aim of this work was to evaluate a dot-enzyme-linked immunosorbent assay (dot-ELISA) using excretory-secretory antigens from the larval stages of Toxocara canis for the diagnosis of toxocariasis. A secondary aim was to establish the optimal conditions for its use in an area with a high prevalence of human T. canis infection. The dot-ELISA test was standardised using different concentrations of the antigen fixed on nitrocellulose paper strips and increasing dilutions of the serum and conjugate. Both the dot-ELISA and standard ELISA methods were tested in parallel with the same batch of sera from controls and from individuals living in the problem area. The best results were obtained with 1.33 µg/mL of antigen, dilutions of 1/80 for the samples and controls and a dilution of 1/5,000 for the anti-human IgG-peroxidase conjugate. All steps of the procedure were performed at room temperature. The coincidence between ELISA and dot-ELISA was 85% and the kappa index was 0.72. The dot-ELISA test described here is rapid, easy to perform and does not require expensive equipment. Thus, this test is suitable for the serological diagnosis of human T. canis infection in field surveys and in the primary health care centres of endemic regions.

Published

2012

35. Anomalous Intrinsic Fluorescence of HCl and NaOH Aqueous Solutions

Author

Villa, A, Doglia, S, De Gioia, L, Bertini, L, Natalello, A, Villa A. M., Doglia S. M., De Gioia L., Bertini L., Natalello A., Villa, A, Doglia, S, De Gioia, L, Bertini, L, Natalello, A, Villa A. M., Doglia S. M., De Gioia L., Bertini L., and Natalello A.

Abstract

The unique properties of liquid water mainly arise from its hydrogen bond network. The geometry and dynamics of this network play a key role in shaping the characteristics of soft matter, from simple solutions to biosystems. Here we report an anomalous intrinsic fluorescence of HCl and NaOH aqueous solutions at room temperature that shows important differences in the excitation and emission bands between the two solutes. From ab initio time-dependent density functional theory modeling we propose that fluorescence emission could originate from hydrated ion species contained in transient cavities of the bulk solvent. These cavities, which are characterized by a stiff surface, could provide an environment that, upon trapping the excited state, suppresses the fast nonradiative decay and allows the slower radiative channel to become a possible decay pathway.

Published

2019

36. Author Correction: The oxidative inactivation of FeFe hydrogenase reveals the flexibility of the H-cluster (Nature Chemistry, (2014), 6, 4, (336-342), 10.1038/nchem.1892)

Author

Fourmond V., Fourmond, V, Greco, C, Sybirna, K, Baffert, C, Wang, P, Ezanno, P, Montefiori, M, Bruschi, M, Meynial-Salles, I, Soucaille, P, Blumberger, J, Bottin, H, De Gioia, L, Leger, C, Fourmond V., Greco C., Sybirna K., Baffert C., Wang P. -H., Ezanno P., Montefiori M., Bruschi M., Meynial-Salles I., Soucaille P., Blumberger J., Bottin H., De Gioia L., Leger C., Fourmond V., Fourmond, V, Greco, C, Sybirna, K, Baffert, C, Wang, P, Ezanno, P, Montefiori, M, Bruschi, M, Meynial-Salles, I, Soucaille, P, Blumberger, J, Bottin, H, De Gioia, L, Leger, C, Fourmond V., Greco C., Sybirna K., Baffert C., Wang P. -H., Ezanno P., Montefiori M., Bruschi M., Meynial-Salles I., Soucaille P., Blumberger J., Bottin H., De Gioia L., and Leger C.

Abstract

In the version of this Article originally published, in several instances throughout the text, the Chlamydomonas reinhardtii amino acid residue phenylalanine was incorrectly labelled F234; it should have been F290.

Published

2019

37. Antimicrobial Activity of Harzianic Acid Against Staphylococcus pseudintermedius

Author

De Filippis A, Nocera FP, Tafuri S, Ciani F, Staropoli A, Comite E, Bottiglieri A, Gioia L, Lorito M, Woo SL, Vinale F, De Martino L, De Filippis, A, Nocera, Fp, Tafuri, S, Ciani, F, Staropoli, A, Comite, E, Bottiglieri, A, Gioia, L, Lorito, M, Woo, Sl, Vinale, F, and De Martino, L

Published

2020

38. Unquantized anomalies in topological semimetals

Author

Gioia, L., primary, Wang, Chong, additional, and Burkov, A. A., additional

Published

2021

39. PREDICTORS OF STROKE IN PATIENTS ON ORAL ANTICOAGULANT: AN OBSERVATIONAL STUDY

Author

Dubé, M, primary, Ducroux, C, additional, Romanelli, G, additional, and Gioia, L, additional

Published

2021

40. Successful Reperfusion is Associated with Favorable Functional Outcome despite Vessel Perforation during Thrombectomy: A Case Series and Systematic Review.

Author

Ducroux, C., Boisseau, W., Poppe, A. Y., Daneault, N., Deschaintre, Y., Diestro, J. D. B., Eneling, J., Gioia, L. C., Iancu, D., Maier, B., Nauche, B., Nico, L., Odier, C., Raymond, J., Roy, D., Stapf, C., Weill, A., and Jacquin, G.

Published

2022

41. The Multi-Level Mechanism of Action of a Pan-Ras Inhibitor Explains its Antiproliferative Activity on Cetuximab-Resistant Cancer Cells

Author

Tisi, R, Spinelli, M, Palmioli, A, Airoldi, C, Cazzaniga, P, Besozzi, D, Nobile, M, Mazzoleni, E, Arnhold, S, De Gioia, L, Grandori, R, Peri, F, Vanoni, M, Sacco, E, Tisi, Renata, Spinelli, Michela, Palmioli, Alessandro, Airoldi, Cristina, Cazzaniga, Paolo, Besozzi, Daniela, Nobile, Marco S, Mazzoleni, Elisa, Arnhold, Simone, De Gioia, Luca, Grandori, Rita, Peri, Francesco, Vanoni, Marco, Sacco, Elena, Tisi, R, Spinelli, M, Palmioli, A, Airoldi, C, Cazzaniga, P, Besozzi, D, Nobile, M, Mazzoleni, E, Arnhold, S, De Gioia, L, Grandori, R, Peri, F, Vanoni, M, Sacco, E, Tisi, Renata, Spinelli, Michela, Palmioli, Alessandro, Airoldi, Cristina, Cazzaniga, Paolo, Besozzi, Daniela, Nobile, Marco S, Mazzoleni, Elisa, Arnhold, Simone, De Gioia, Luca, Grandori, Rita, Peri, Francesco, Vanoni, Marco, and Sacco, Elena

Abstract

Ras oncoproteins play a crucial role in the onset, maintenance, and progression of the most common and deadly human cancers. Despite extensive research efforts, only a few mutant-specific Ras inhibitors have been reported. We show that cmp4-previously identified as a water-soluble Ras inhibitor- targets multiple steps in the activation and downstream signaling of different Ras mutants and isoforms. Binding of this pan-Ras inhibitor to an extended Switch II pocket on HRas and KRas proteins induces a conformational change that down-regulates intrinsic and GEF-mediated nucleotide dissociation and exchange and effector binding. A mathematical model of the Ras activation cycle predicts that the inhibitor severely reduces the proliferation of different Ras-driven cancer cells, effectively cooperating with Cetuximab to reduce proliferation even of Cetuximab-resistant cancer cell lines. Experimental data confirm the model prediction, indicating that the pan-Ras inhibitor is an appropriate candidate for medicinal chemistry efforts tailored at improving its currently unsatisfactory affinity.

Published

2021

42. The Photochemistry of Fe2(S2C3H6)(CO)6(µ-CO) and Its Oxidized Form, Two Simple [FeFe]-Hydrogenase CO-Inhibited Models. A DFT and TDDFT Investigation

Author

Arrigoni, F, Zampella, G, De Gioia, L, Greco, C, Bertini, L, Arrigoni, Federica, Zampella, Giuseppe, De Gioia, Luca, Greco, Claudio, Bertini, Luca, Arrigoni, F, Zampella, G, De Gioia, L, Greco, C, Bertini, L, Arrigoni, Federica, Zampella, Giuseppe, De Gioia, Luca, Greco, Claudio, and Bertini, Luca

Abstract

FeIFeI Fe2(S2C3H6)(CO)6(µ-CO) (1a–CO) and its FeIFeII cationic species (2a+–CO) are the simplest model of the CO-inhibited [FeFe] hydrogenase active site, which is known to undergo CO photolysis within a temperature-dependent process whose products and mechanism are still a matter of debate. Using density functional theory (DFT) and time-dependent density functional theory (TDDFT) computations, the ground state and low-lying excited-state potential energy surfaces (PESs) of 1a–CO and 2a+–CO have been explored aimed at elucidating the dynamics of the CO photolysis yielding Fe2(S2C3H6)(CO)6 (1a) and [Fe2(S2C3H6)(CO)6]+ (2a+), two simple models of the catalytic site of the enzyme. Two main results came out from these investigations. First, a–CO and 2a+–CO are both bound with respect to any CO dissociation with the lowest free energy barriers around 10 kcal mol−1, suggesting that at least 2a+–CO may be synthesized. Second, focusing on the cationic form, we found at least two clear excited-state channels along the PESs of 2a+–CO that are unbound with respect to equatorial CO dissociation.

Published

2021

43. First-Principles Calculations on Ni,Fe-Containing Carbon Monoxide Dehydrogenases Reveal Key Stereoelectronic Features for Binding and Release of CO2 to/from the C-Cluster

Author

Breglia, R, Arrigoni, F, Sensi, M, Greco, C, Fantucci, P, De Gioia, L, Bruschi, M, Breglia, Raffaella, Arrigoni, Federica, Sensi, Matteo, Greco, Claudio, Fantucci, Piercarlo, De Gioia, Luca, Bruschi, Maurizio, Breglia, R, Arrigoni, F, Sensi, M, Greco, C, Fantucci, P, De Gioia, L, Bruschi, M, Breglia, Raffaella, Arrigoni, Federica, Sensi, Matteo, Greco, Claudio, Fantucci, Piercarlo, De Gioia, Luca, and Bruschi, Maurizio

Abstract

In view of the depletion of fossil fuel reserves and climatic effects of greenhouse gas emissions, Ni,Fe-containing carbon monoxide dehydrogenase (Ni-CODH) enzymes have attracted increasing interest in recent years for their capability to selectively catalyze the reversible reduction of CO2 to CO (CO2 + 2H+ + 2e-⇌ CO + H2O). The possibility of converting the greenhouse gas CO2 into useful materials that can be used as synthetic building blocks or, remarkably, as carbon fuels makes Ni-CODH a very promising target for reverse-engineering studies. In this context, in order to provide insights into the chemical principles underlying the biological catalysis of CO2 activation and reduction, quantum mechanics calculations have been carried out in the framework of density functional theory (DFT) on different-sized models of the Ni-CODH active site. With the aim of uncovering which stereoelectronic properties of the active site (known as the C-cluster) are crucial for the efficient binding and release of CO2, different coordination modes of CO2 to different forms and redox states of the C-cluster have been investigated. The results obtained from this study highlight the key role of the protein environment in tuning the reactivity and the geometry of the C-cluster. In particular, the protonation state of His93 is found to be crucial for promoting the binding or the dissociation of CO2. The oxidation state of the C-cluster is also shown to be critical. CO2 binds to Cred2 according to a dissociative mechanism (i.e., CO2 binds to the C-cluster after the release of possible ligands from Feu) when His93 is doubly protonated. CO2 can also bind noncatalytically to Cred1 according to an associative mechanism (i.e., CO2 binding is preceded by the binding of H2O to Feu). Conversely, CO2 dissociates when His93 is singly protonated and the C-cluster is oxidized at least to the Cint redox state.

Published

2021

44. PO-259 Inhibition of the hexosamine biosynthetic pathway by targeting PGM3 causes breast cancer growth arrest and apoptosis

Author

Chiaradonna, F, Ricciardiello, F, Votta, G, Palorini, R, Raccagni, I, Brunelli, L, De Gioia, L, Pastorelli, R, Moresco, R, Ferla, B, Chiaradonna, F., Ricciardiello, F., Votta, G., Palorini, R., Raccagni, I., Brunelli, L., De Gioia, L., Pastorelli, R., Moresco, R. M., Ferla, B. La, Chiaradonna, F, Ricciardiello, F, Votta, G, Palorini, R, Raccagni, I, Brunelli, L, De Gioia, L, Pastorelli, R, Moresco, R, Ferla, B, Chiaradonna, F., Ricciardiello, F., Votta, G., Palorini, R., Raccagni, I., Brunelli, L., De Gioia, L., Pastorelli, R., Moresco, R. M., and Ferla, B. La

Published

2018

45. On the photochemistry of Fe2(edt)(CO)4(PMe3)2, a [FeFe]-hydrogenase model: A DFT/TDDFT investigation

Author

Bertini, L, Alberto, M, Arrigoni, F, Vertemara, J, Fantucci, P, Bruschi, M, Zampella, G, De Gioia, L, Alberto, Me, De Gioia, L., Bertini, L, Alberto, M, Arrigoni, F, Vertemara, J, Fantucci, P, Bruschi, M, Zampella, G, De Gioia, L, Alberto, Me, and De Gioia, L.

Abstract

The photochemistry of the [FeFe] hydrogenases model [Fe-2(edt)(CO)(4)(PMe3)(2)] (edt=1-2 ethane-dithiolate, (1) is investigated at Time-Dependent Density Functional Theory (TDDFT) level, focusing on the effect of the phosphine ligands on the early stages of the photodynamic of the system compared to that of the all CO model Fe-2(pdt)(CO)(6) (2) (pdt=1-3 propanedithiolate). We observed a role of the FeS charge transfer for the lower energy singlet transitions, unveiling a photoisomerization pathway between the lowest energy forms while the higher energy excitations are likely involved in the CO dissociation pathways. TDDFT shows that the average Fe-CO bond elongation in 1 is shorter than that observed in 2, providing the electronic structure rationale on the observation that diiron dithiolates are more photo-stable with respect to the CO photolysis than the all CO model. This is relevant for catalyst photo-stability and is an advantageous and thus desirable feature for practical applications of photo-hydrogen evolution

Published

2018

46. Catalytic H2 evolution/oxidation in [FeFe]-hydrogenase biomimetics: account from DFT on the interplay of related issues and proposed solutions

Author

Arrigoni, F, Bertini, L, Breglia, R, Greco, C, De Gioia, L, Zampella, G, Arrigoni, Federica, Bertini, Luca, Breglia, Raffaella, Greco, Claudio, De Gioia, Luca, Zampella, Giuseppe, Arrigoni, F, Bertini, L, Breglia, R, Greco, C, De Gioia, L, Zampella, G, Arrigoni, Federica, Bertini, Luca, Breglia, Raffaella, Greco, Claudio, De Gioia, Luca, and Zampella, Giuseppe

Abstract

This perspective aims at illustrating a computational viewpoint on some specific issues concerning structure–activity relationships related to [FeFe]-hydrogenase ([FeFe]-H2ase) biomimicry. Most of the research outlined herein has been addressed by means of density functional theory (DFT) based tools, in some cases in conjunction with experimental techniques. The number of computational, experimental and mixed approach studies on the “hydrogenase models” topic is extraordinarily high. Accordingly, several comprehensive reviews have been published over the last twenty years. Moreover, the number of iron compounds of increasing nuclearity that have been considered as “biomimetic models” of [FeFe]-H2ase has grown exponentially over time. Additionally, the issues regarding some mismatches existing between the natural system and related synthetic analogues, are quite variegated. As a consequence of the countless examples that could be considered as related to “hydrogenase mimicry”, the intent of the present contribution is to provide an account of a limited number of recent study cases, in which DFT has been employed to elucidate redox properties, reactivity issues of selected examples of diiron biomimicry. Herein the treated topics have been explicitly chosen to show how DFT has allowed us to rationalize and complement experimental observations, with a special focus on electrocatalysis aspects. Finally, the specific purpose of this perspective is to show how mutually intertwined are the various issues concerning a fascinating branch of biomimetic research.

Published

2020

47. Hydrogenases

Author

De Gioia, L., primary

Published

2013

48. P-Type Ca Channel Activation by Membrane Depolarisation Induces Maturation in Pig Oocytes

Author

Gioia, L., Barboni, B., Turriani, M., Capacchietti, G., Ioannoni, A., Lucidi, P., Pistilli, G., and Mattioli, M.

Published

2005

49. Effect of Cryoprotectant Agents on the Potential Development of Sheep Preantral Follicles

Author

Capacchietti, G., Cecconi, S., Gioia, L., and Turriani, M.

Published

2004

50. Oocyte Maturation is Required for Correct Sperm Chromatin Rearrangement

Author

Mattioli, M., Gioia, L., Turriani, M., Capacchietti, G., Loi, P., and Ptak, G.

Published

2004