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Artikel: Scintillation light detection in the 6-m drift-length ProtoDUNE Dual Phase liquid argon TPC.

Abud, A Abed / Abi, B / Acciarri, R / Acero, M A / Adames, M R / Adamov, G / Adamowski, M / Adams, D / Adinolfi, M / Aduszkiewicz, A / Aguilar, J / Ahmad, Z / Ahmed, J / Aimard, B / Ali-Mohammadzadeh, B / Alion, T / Allison, K / Monsalve, S Alonso / AlRashed, M /

Alt, C / Alton, A / Alvarez, R / Amedo, P / Anderson, J / Andreopoulos, C / Andreotti, M / Andrews, M / Andrianala, F / Andringa, S / Anfimov, N / Ankowski, A / Antoniassi, M / Antonova, M / Antoshkin, A / Antusch, S / Aranda-Fernandez, A / Arellano, L / Arnold, L O / Arroyave, M A / Asaadi, J / Asquith, L / Aurisano, A / Aushev, V / Autiero, D / Lara, V Ayala / Ayala-Torres, M / Azfar, F / Back, A / Back, H / Back, J J / Backhouse, C / Bagaturia, I / Bagby, L / Balashov, N / Balasubramanian, S / Baldi, P / Baller, B / Bambah, B / Barao, F / Barenboim, G / Alzas, P Barham / Barker, G / Barkhouse, W / Barnes, C / Barr, G / Monarca, J Barranco / Barros, A / Barros, N / Barrow, J L / Basharina-Freshville, A / Bashyal, A / Basque, V / Batchelor, C / Chagas, E Batista das / Battat, J B R / Battisti, F / Bay, F / Bazetto, M C Q / Alba, J L L Bazo / Beacom, J F / Bechetoille, E / Behera, B / Beigbeder, C / Bellantoni, L / Bellettini, G / Bellini, V / Beltramello, O / Benekos, N / Montiel, C Benitez / Neves, F Bento / Berger, J / Berkman, S / Bernardini, P / Berner, R M / Bersani, A / Bertolucci, S / Betancourt, M / Rodríguez, A Betancur / Bevan, A / Bezawada, Y / Bezerra, T J C / Bhardwaj, A / Bhatnagar, V / Bhattacharjee, M / Bhattarai, D / Bhuller, S / Bhuyan, B / Biagi, S / Bian, J / Biassoni, M / Biery, K / Bilki, B / Bishai, M / Bitadze, A / Blake, A / Blaszczyk, F / Blazey, G C / Blucher, E / Boissevain, J / Bolognesi, S / Bolton, T / Bomben, L / Bonesini, M / Bongrand, M / Bonilla-Diaz, C / Bonini, F / Booth, A / Boran, F / Bordoni, S / Borkum, A / Bostan, N / Bour, P / Bourgeois, C / Boyden, D / Bracinik, J / Braga, D / Brailsford, D / Branca, A / Brandt, A / Bremer, J / Breton, D / Brew, C / Brice, S J / Brizzolari, C / Bromberg, C / Brooke, J / Bross, A / Brunetti, G / Brunetti, M / Buchanan, N / Budd, H / Butorov, I / Cagnoli, I / Cai, T / Caiulo, D / Calabrese, R / Calafiura, P / Calcutt, J / Calin, M / Calvez, S / Calvo, E / Caminata, A / Campanelli, M / Caratelli, D / Carber, D / Carceller, J C / Carini, G / Carlus, B / Carneiro, M F / Carniti, P / Terrazas, I Caro / Carranza, H / Carroll, T / Forero, J F Castaño / Castillo, A / Castromonte, C / Catano-Mur, E / Cattadori, C / Cavalier, F / Cavallaro, G / Cavanna, F / Centro, S / Cerati, G / Cervelli, A / Villanueva, A Cervera / Chalifour, M / Chappell, A / Chardonnet, E / Charitonidis, N / Chatterjee, A / Chattopadhyay, S / Neyra, M S S Chavarry / Chen, H / Chen, M / Chen, Y / Chen, Z / Chen-Wishart, Z / Cheon, Y / Cherdack, D / Chi, C / Childress, S / Chirco, R / Chiriacescu, A / Chisnall, G / Cho, K / Choate, S / Chokheli, D / Chong, P S / Christensen, A / Christian, D / Christodoulou, G / Chukanov, A / Chung, M / Church, E / Cicero, V / Clarke, P / Cline, G / Coan, T E / Cocco, A G / Coelho, J A B / Colton, N / Conley, E / Conley, R / Conrad, J / Convery, M / Copello, S / Cova, P / Cremaldi, L / Cremonesi, L / Crespo-Anadón, J I / Crisler, M / Cristaldo, E / Crnkovic, J / Cross, R / Cudd, A / Cuesta, C / Cui, Y / Cussans, D / Dalager, O / da Motta, H / Da Silva Peres, L / David, C / David, Q / Davies, G S / Davini, S / Dawson, J / De, K / De, S / Debbins, P / De Bonis, I / Decowski, M P / De Gouvêa, A / De Holanda, P C / De Icaza Astiz, I L / Deisting, A / De Jong, P / Delbart, A / Delepine, D / Delgado, M / Dell'Acqua, A / Delmonte, N / De Lurgio, P / de Mello Neto, J R T / DeMuth, D M / Dennis, S / Densham, C / Deptuch, G W / De Roeck, A / De Romeri, V / De Souza, G / Devi, R / Dharmapalan, R / Dias, M / Diaz, F / Díaz, J S / Domizio, S Di / Giulio, L Di / Ding, P / Noto, L Di / Dirkx, G / Distefano, C / Diurba, R / Diwan, M / Djurcic, Z / Doering, D / Dolan, S / Dolek, F / Dolinski, M / Domine, L / Donon, Y / Douglas, D / Douillet, D / Dragone, A / Drake, G / Drielsma, F / Duarte, L / Duchesneau, D / Duffy, K / Dunne, P / Dutta, B / Duyang, H / Dvornikov, O / Dwyer, D / Dyshkant, A / Eads, M / Earle, A / Edmunds, D / Eisch, J / Emberger, L / Emery, S / Englezos, P / Ereditato, A / Erjavec, T / Escobar, C / Eurin, G / Evans, J J / Ewart, E / Ezeribe, A C / Fahey, K / Falcone, A / Fani', M / Farnese, C / Farzan, Y / Fedoseev, D / Felix, J / Feng, Y / Fernandez-Martinez, E / Menendez, P Fernandez / Morales, M Fernandez / Ferraro, F / Fields, L / Filip, P / Filthaut, F / Fiorini, M / Fischer, V / Fitzpatrick, R S / Flanagan, W / Fleming, B / Flight, R / Fogarty, S / Foreman, W / Fowler, J / Fox, W / Franc, J / Francis, K / Franco, D / Freeman, J / Freestone, J / Fried, J / Friedland, A / Robayo, F Fuentes / Fuess, S / Furic, I K / Furman, K / Furmanski, A P / Gabrielli, A / Gago, A / Gallagher, H / Gallas, A / Gallego-Ros, A / Gallice, N / Galymov, V / Gamberini, E / Gamble, T / Ganacim, F / Gandhi, R / Gandrajula, R / Gao, F / Gao, S / Garcia-Gamez, D / García-Peris, M Á / Gardiner, S / Gastler, D / Gauvreau, J / Ge, G / Geffroy, N / Gelli, B / Gendotti, A / Gent, S / Ghorbani-Moghaddam, Z / Giammaria, P / Giammaria, T / Giangiacomi, N / Gibin, D / Gil-Botella, I / Gilligan, S / Girerd, C / Giri, A K / Gnani, D / Gogota, O / Gold, M / Gollapinni, S / Gollwitzer, K / Gomes, R A / Bermeo, L V Gomez / Fajardo, L S Gomez / Gonnella, F / Gonzalez-Diaz, D / Gonzalez-Lopez, M / Goodman, M C / Goodwin, O / Goswami, S / Gotti, C / Goudzovski, E / Grace, C / Gran, R / Granados, E / Granger, P / Grant, A / Grant, C / Gratieri, D / Green, P / Greenler, L / Greer, J / Grenard, J / Griffith, W C / Groh, M / Grudzinski, J / Grzelak, K / Gu, W / Guardincerri, E / Guarino, V / Guarise, M / Guenette, R / Guerard, E / Guerzoni, M / Guffanti, D / Guglielmi, A / Guo, B / Gupta, A / Gupta, V / Guthikonda, K K / Gutierrez, R / Guzowski, P / Guzzo, M M / Gwon, S / Ha, C / Haaf, K / Habig, A / Hadavand, H / Haenni, R / Hahn, A / Haiston, J / Hamacher-Baumann, P / Hamernik, T / Hamilton, P / Han, J / Harris, D A / Hartnell, J / Hartnett, T / Harton, J / Hasegawa, T / Hasnip, C / Hatcher, R / Hatfield, K W / Hatzikoutelis, A / Hayes, C / Hayrapetyan, K / Hays, J / Hazen, E / He, M / Heavey, A / Heeger, K M / Heise, J / Henry, S / Morquecho, M A Hernandez / Herner, K / Hewes, J / Hilgenberg, C / Hill, T / Hillier, S J / Himmel, A / Hinkle, E / Hirsch, L R / Ho, J / Hoff, J / Holin, A / Hoppe, E / Horton-Smith, G A / Hostert, M / Hourlier, A / Howard, B / Howell, R / Hoyos, J / Hristova, I / Hronek, M S / Huang, J / Hulcher, Z / Iles, G / Ilic, N / Iliescu, A M / Illingworth, R / Ingratta, G / Ioannisian, A / Irwin, B / Isenhower, L / Itay, R / Jackson, C M / Jain, V / James, E / Jang, W / Jargowsky, B / Jediny, F / Jena, D / Jeong, Y S / Jesús-Valls, C / Ji, X / Jiang, L / Jiménez, S / Jipa, A / Johnson, R / Johnson, W / Johnston, N / Jones, B / Jones, S / Judah, M / Jung, C K / Junk, T / Jwa, Y / Kabirnezhad, M / Kaboth, A / Kadenko, I / Kakorin, I / Kalitkina, A / Kalra, D / Kamiya, F / Kaneshige, N / Kaplan, D M / Karagiorgi, G / Karaman, G / Karcher, A / Karolak, M / Karyotakis, Y / Kasai, S / Kasetti, S P / Kashur, L / Kazaryan, N / Kearns, E / Keener, P / Kelly, K J / Kemp, E / Kemularia, O / Ketchum, W / Kettell, S H / Khabibullin, M / Khotjantsev, A / Khvedelidze, A / Kim, D / King, B / Kirby, B / Kirby, M / Klein, J / Klustova, A / Kobilarcik, T / Koehler, K / Koerner, L W / Koh, D H / Kohn, S / Koller, P P / Kolupaeva, L / Korablev, D / Kordosky, M / Kosc, T / Kose, U / Kostelecký, V A / Kothekar, K / Kralik, R / Kreczko, L / Krennrich, F / Kreslo, I / Kropp, W / Kroupova, T / Kubota, S / Kudenko, Y / Kudryavtsev, V A / Kulagin, S / Kumar, J / Kumar, P / Kunze, P / Kurita, N / Kuruppu, C / Kus, V / Kutter, T / Kvasnicka, J / Kwak, D / Lambert, A / Land, B / Lane, C E / Lang, K / Langford, T / Langstaff, M / Larkin, J / Lasorak, P / Last, D / Laundrie, A / Laurenti, G / Lawrence, A / Lazanu, I / LaZur, R / Lazzaroni, M / Le, T / Leardini, S / Learned, J / LeBrun, P / LeCompte, T / Lee, C / Lee, S Y / Miotto, G Lehmann / Lehnert, R / de Oliveira, M A Leigui / Leitner, M / Lepin, L M / Li, S W / Li, Y / Liao, H / Lin, C S / Lin, Q / Lin, S / Lineros, R A / Ling, J / Lister, A / Littlejohn, B R / Liu, J / Liu, Y / Lockwitz, S / Loew, T / Lokajicek, M / Lomidze, I / Long, K / Lord, T / LoSecco, J M / Louis, W C / Lu, X-G / Luk, K B / Lunday, B / Luo, X / Luppi, E / Lux, T / Luzio, V P / Maalmi, J / MacFarlane, D / Machado, A A / Machado, P / Macias, C T / Macier, J R / Maddalena, A / Madera, A / Madigan, P / Magill, S / Mahn, K / Maio, A / Major, A / Maloney, J A / Mandrioli, G / Mandujano, R C / Maneira, J / Manenti, L / Manly, S / Mann, A / Manolopoulos, K / Plata, M Manrique / Manyam, V N / Manzanillas, L / Marchan, M / Marchionni, A / Marciano, W / Marfatia, D / Mariani, C / Maricic, J / Marie, R / Marinho, F / Marino, A D / Marsden, D / Marshak, M / Marshall, C / Marshall, J / Marteau, J / Martín-Albo, J / Martinez, N / Caicedo, D A Martinez / Miravé, P Martínez / Martynenko, S / Mascagna, V / Mason, K / Mastbaum, A / Matichard, F / Matsuno, S / Matthews, J / Mauger, C / Mauri, N / Mavrokoridis, K / Mawby, I / Mazza, R / Mazzacane, A / Mazzucato, E / McAskill, T / McCluskey, E / McConkey, N / McFarland, K S / McGrew, C / McNab, A / Mefodiev, A / Mehta, P / Melas, P / Mena, O / Mendez, H / Mendez, P / Méndez, D P / Menegolli, A / Meng, G / Messier, M D / Metcalf, W / Mettler, T / Mewes, M / Meyer, H / Miao, T / Michna, G / Miedema, T / Mikola, V / Milincic, R / Miller, G / Miller, W / Mills, J / Mineev, O / Minotti, A / Miranda, O G / Miryala, S / Mishra, C S / Mishra, S R / Mislivec, A / Mitchell, M / Mladenov, D / Mocioiu, I / Moffat, K / Moggi, N / Mohanta, R / Mohayai, T A / Mokhov, N / Molina, J / Bueno, L Molina / Montagna, E / Montanari, A / Montanari, C / Montanari, D / Zetina, L M Montañno / Moon, S H / Mooney, M / Moor, A F / Moreno, D / Moretti, D / Morris, C / Mossey, C / Mote, M / Motuk, E / Moura, C A / Mousseau, J / Mouster, G / Mu, W / Mualem, L / Mueller, J / Muether, M / Mufson, S / Muheim, F / Muir, A / Mulhearn, M / Munford, D / Muramatsu, H / Murphy, S / Musser, J / Nachtman, J / Nagu, S / Nalbandyan, M / Nandakumar, R / Naples, D / Narita, S / Nath, A / Navrer-Agasson, A / Nayak, N / Nebot-Guinot, M / Negishi, K / Nelson, J K / Nesbit, J / Nessi, M / Newbold, D / Newcomer, M / Newton, H / Nichol, R / Nicolas-Arnaldos, F / Nikolica, A / Niner, E / Nishimura, K / Norman, A / Norrick, A / Northrop, R / Novella, P / Nowak, J A / Oberling, M / Ochoa-Ricoux, J / Olivier, A / Olshevskiy, A / Onel, Y / Onishchuk, Y / Ott, J / Pagani, L / Palacio, G / Palamara, O / Palestini, S / Paley, J M / Pallavicini, M / Palomares, C / Vazquez, W Panduro / Pantic, E / Paolone, V / Papadimitriou, V / Papaleo, R / Papanestis, A / Paramesvaran, S / Parke, S / Parozzi, E / Parsa, Z / Parvu, M / Pascoli, S / Pasqualini, L / Pasternak, J / Pater, J / Patrick, C / Patrizii, L / Patterson, R B / Patton, S J / Patzak, T / Paudel, A / Paulos, B / Paulucci, L / Pavlovic, Z / Pawloski, G / Payne, D / Pec, V / Peeters, S J M / Perez, A Pena / Pennacchio, E / Penzo, A / Peres, O L G / Perry, J / Pershey, D / Pessina, G / Petrillo, G / Petta, C / Petti, R / Pia, V / Piastra, F / Pickering, L / Pietropaolo, F / Pimentel, V L / Pinaroli, G / Plows, K / Plunkett, R / Poling, R / Pompa, F / Pons, X / Poonthottathil, N / Poppi, F / Pordes, S / Porter, J / Potekhin, M / Potenza, R / Potukuchi, B V K S / Pozimski, J / Pozzato, M / Prakash, S / Prakash, T / Prest, M / Prince, S / Psihas, F / Pugnere, D / Qian, X / Raaf, J L / Radeka, V / Rademacker, J / Radics, B / Rafique, A / Raguzin, E / Rai, M / Rajaoalisoa, M / Rakhno, I / Rakotonandrasana, A / Rakotondravohitra, L / Rameika, R / Delgado, M A Ramirez / Ramson, B / Rappoldi, A / Raselli, G / Ratoff, P / Raut, S / Razakamiandra, R F / Rea, E M / Real, J S / Rebel, B / Rechenmacher, R / Reggiani-Guzzo, M / Reichenbacher, J / Reitzner, S D / Sfar, H Rejeb / Renshaw, A / Rescia, S / Resnati, F / Ribas, M / Riboldi, S / Riccio, C / Riccobene, G / Rice, L C J / Ricol, J S / Rigamonti, A / Rigaut, Y / Rincón, E V / Ritchie-Yates, H / Rivera, D / Robert, A / Rochester, L / Roda, M / Rodrigues, P / Alonso, M J Rodriguez / Bonilla, E Rodriguez / Rondon, J Rodriguez / Rosauro-Alcaraz, S / Rosenberg, M / Rosier, P / Roskovec, B / Rossella, M / Rossi, M / Rout, J / Roy, P / Rubbia, A / Rubbia, C / Russell, B / Ruterbories, D / Rybnikov, A / Saa-Hernandez, A / Saakyan, R / Sacerdoti, S / Safford, T / Sahu, N / Sakashita, K / Sala, P / Samios, N / Samoylov, O / Sanchez, M C / Sandberg, V / Sanders, D A / Sankey, D / Santana, S / Santos-Maldonado, M / Saoulidou, N / Sapienza, P / Sarasty, C / Sarcevic, I / Savage, G / Savinov, V / Scaramelli, A / Scarff, A / Scarpelli, A / Schefke, T / Schellman, H / Schifano, S / Schlabach, P / Schmitz, D / Schneider, A W / Scholberg, K / Schukraft, A / Segreto, E / Selyunin, A / Senise, C R / Sensenig, J / Sergi, A / Sgalaberna, D / Shaevitz, M H / Shafaq, S / Shaker, F / Shamma, M / Sharankova, R / Sharma, H R / Sharma, R / Sharma, R K / Shaw, T / Shchablo, K / Shepherd-Themistocleous, C / Sheshukov, A / Shin, S / Shoemaker, I / Shooltz, D / Shrock, R / Siegel, H / Simard, L / Sinclair, J / Sinev, G / Singh, J / Singh, L / Singh, P / Singh, V / Sipos, R / Sippach, F W / Sirri, G / Sitraka, A / Siyeon, K / Skarpaas, K / Smith, A / Smith, E / Smith, P / Smolik, J / Smy, M / Snider, E / Snopok, P / Snowden-Ifft, D / Nunes, M Soares / Sobel, H / Soderberg, M / Sokolov, S / Salinas, C J Solano / Söldner-Rembold, S / Soleti, S R / Solomey, N / Solovov, V / Sondheim, W E / Sorel, M / Sotnikov, A / Soto-Oton, J / Ugaldi, F A Soto / Sousa, A / Soustruznik, K / Spagliardi, F / Spanu, M / Spitz, J / Spooner, N J C / Spurgeon, K / Stancari, M / Stanco, L / Stanford, C / Stein, R / Steiner, H M / Lisbôa, A F Steklain / Stewart, J / Stillwell, B / Stock, J / Stocker, F / Stokes, T / Strait, M / Strauss, T / Strigari, L / Stuart, A / Suarez, J G / Sunción, J M Suárez / Sullivan, H / Summers, D / Surdo, A / Susic, V / Suter, L / Sutera, C M / Svoboda, R / Szczerbinska, B / Szelc, A M / Tanaka, H / Tang, S / Tapia, A / Oregui, B Tapia / Tapper, A / Tariq, S / Tarpara, E / Tata, N / Tatar, E / Tayloe, R / Teklu, A M / Tennessen, P / Tenti, M / Terao, K / Ternes, C A / Terranova, F / Testera, G / Thakore, T / Thea, A / Thompson, J L / Thorn, C / Timm, S C / Tishchenko, V / Tomassetti, L / Tonazzo, A / Torbunov, D / Torti, M / Tortola, M / Tortorici, F / Tosi, N / Totani, D / Toups, M / Touramanis, C / Travaglini, R / Trevor, J / Trilov, S / Trzaska, W H / Tsai, Y / Tsai, Y-T / Tsamalaidze, Z / Tsang, K V / Tsverava, N / Tufanli, S / Tull, C / Tyley, E / Tzanov, M / Uboldi, L / Uchida, M A / Urheim, J / Usher, T / Uzunyan, S / Vagins, M R / Vahle, P / Valder, S / Valdiviesso, G D A / Valencia, E / Valentim, R / Vallari, Z / Vallazza, E / Valle, J W F / Vallecorsa, S / Berg, R Van / de Water, R G Van / Forero, D Vanegas / Vannerom, D / Varanini, F / Oliva, D Vargas / Varner, G / Vasel, J / Vasina, S / Vasseur, G / Vaughan, N / Vaziri, K / Ventura, S / Verdugo, A / Vergani, S / Vermeulen, M A / Verzocchi, M / Vicenzi, M / de Souza, H Vieira / Vignoli, C / Vilela, C / Viren, B / Vrba, T / Wachala, T / Waldron, A V / Wallbank, M / Wallis, C / Wang, H / Wang, J / Wang, L / Wang, M H L S / Wang, X / Wang, Y / Warburton, K / Warner, D / Wascko, M O / Waters, D / Watson, A / Wawrowska, K / Weatherly, P / Weber, A / Weber, M / Wei, H / Weinstein, A / Wenman, D / Wetstein, M / White, A / Whitehead, L H / Whittington, D / Wilking, M J / Wilkinson, A / Wilkinson, C / Williams, Z / Wilson, F / Wilson, R J / Wisniewski, W / Wolcott, J / Wongjirad, T / Wood, A / Wood, K / Worcester, E / Worcester, M / Wresilo, K / Wret, C / Wu, W / Xiao, Y / Xie, F / Yaeggy, B / Yandel, E / Yang, G / Yang, K / Yang, T / Yankelevich, A / Yershov, N / Yonehara, K / Yoon, Y S / Young, T / Yu, B / Yu, H / Yu, J / Yu, Y / Yuan, W / Zaki, R / Zalesak, J / Zambelli, L / Zamorano, B / Zani, A / Zazueta, L / Zeller, G P / Zennamo, J / Zeug, K / Zhang, C / Zhang, S / Zhang, Y / Zhao, M / Zhivun, E / Zhu, G / Zimmerman, E D / Zucchelli, S / Zuklin, J / Zutshi, V / Zwaska, R

The European physical journal. C, Particles and fields

2022 Band 82, Heft 7, Seite(n) 618

Abstract: DUNE is a dual-site experiment for long-baseline neutrino oscillation studies, neutrino astrophysics and nucleon decay searches. ProtoDUNE Dual Phase (DP) is a ... ...

Abstract	DUNE is a dual-site experiment for long-baseline neutrino oscillation studies, neutrino astrophysics and nucleon decay searches. ProtoDUNE Dual Phase (DP) is a 6
Sprache	Englisch
Erscheinungsdatum	2022-07-16
Erscheinungsland	France
Dokumenttyp	Journal Article
ZDB-ID	1459069-4
ISSN	1434-6052 ; 1434-6044
ISSN (online)	1434-6052
ISSN	1434-6044
DOI	10.1140/epjc/s10052-022-10549-w
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Apolipoprotein M Inhibits Angiogenic and Inflammatory Response by Sphingosine 1-Phosphate on Retinal Pigment Epithelium Cells.

Terao, Ryo / Honjo, Megumi / Aihara, Makoto

International journal of molecular sciences

2017 Band 19, Heft 1

Abstract: ... have suggested that apolipoprotein M (ApoM), a carrier protein for S1P, modulates ...

Abstract	Sphingosine 1-phosphate (S1P) is a potent lipid mediator that modulates inflammatory responses and proangiogenic factors. It has been suggested that S1P upregulates choroidal neovascularization (CNV) and may be deeply involved in the pathogenesis of exudative age-related macular degeneration (AMD). Recent studies have suggested that apolipoprotein M (ApoM), a carrier protein for S1P, modulates the biological properties of S1P in the pathogenesis of atherosclerosis. However, the role of ApoM/S1P in AMD has not been explored. We investigated the effect of S1P on proangiogenic factors in human retinal pigment epithelium (RPE) cell lines in vitro. S1P promoted the expression of vascular endothelial growth factor in RPE cells. Hypoxia inducible factor-1α expression was also upregulated. These S1P-induced enhancements in growth factors and chemotactic cytokines in RPE cells were significantly inhibited by ApoM treatment. Additionally, in vivo experiments using a laser-induced CNV murine model demonstrated that intravitreal ApoM injection significantly reduced the progression of CNV formation. Although the detailed mechanisms remain to be elucidated, the present results provide a novel potential therapeutic target for AMD, and demonstrate a suppressive role for ApoM and S1P in the pathology of CNV progression.
Mesh-Begriff(e)	Animals ; Apolipoproteins M/genetics ; Apolipoproteins M/pharmacology ; Cell Line ; Choroidal Neovascularization/drug therapy ; Choroidal Neovascularization/etiology ; Choroidal Neovascularization/genetics ; Choroidal Neovascularization/pathology ; Cytokines/genetics ; Humans ; Inflammation/drug therapy ; Inflammation/genetics ; Inflammation/pathology ; Intercellular Signaling Peptides and Proteins/genetics ; Lasers ; Lysophospholipids/genetics ; Lysophospholipids/metabolism ; Macular Degeneration/drug therapy ; Macular Degeneration/genetics ; Macular Degeneration/pathology ; Mice ; Retina/metabolism ; Retina/pathology ; Retinal Pigment Epithelium/metabolism ; Retinal Pigment Epithelium/pathology ; Sphingosine/analogs & derivatives ; Sphingosine/genetics ; Sphingosine/metabolism
Chemische Substanzen	Apolipoproteins M ; Cytokines ; Intercellular Signaling Peptides and Proteins ; Lysophospholipids ; sphingosine 1-phosphate (26993-30-6) ; Sphingosine (NGZ37HRE42)
Sprache	Englisch
Erscheinungsdatum	2017-12-31
Erscheinungsland	Switzerland
Dokumenttyp	Journal Article
ZDB-ID	2019364-6
ISSN	1422-0067 ; 1422-0067 ; 1661-6596
ISSN (online)	1422-0067
ISSN	1422-0067 ; 1661-6596
DOI	10.3390/ijms19010112
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Large-scale analysis of Macaca fascicularis transcripts and inference of genetic divergence between M. fascicularis and M. mulatta.

Osada, Naoki / Hashimoto, Katsuyuki / Kameoka, Yosuke / Hirata, Makoto / Tanuma, Reiko / Uno, Yasuhiro / Inoue, Itsuro / Hida, Munetomo / Suzuki, Yutaka / Sugano, Sumio / Terao, Keiji / Kusuda, Jun / Takahashi, Ichiro

BMC genomics

2008 Band 9, Seite(n) 90

Abstract: ... in biomedical research and are closely related to other laboratory macaques, such as rhesus macaques (M. mulatta ... any public human cDNA sequence and examined their expression using M. fascicularis ...

Abstract	Background: Cynomolgus macaques (Macaca fascicularis) are widely used as experimental animals in biomedical research and are closely related to other laboratory macaques, such as rhesus macaques (M. mulatta). We isolated 85,721 clones and determined 9407 full-insert sequences from cynomolgus monkey brain, testis, and liver. These sequences were annotated based on homology to human genes and stored in a database, QFbase http://genebank.nibio.go.jp/qfbase/. Results: We found that 1024 transcripts did not represent any public human cDNA sequence and examined their expression using M. fascicularis oligonucleotide microarrays. Significant expression was detected for 544 (51%) of the unidentified transcripts. Moreover, we identified 226 genes containing exon alterations in the untranslated regions of the macaque transcripts, despite the highly conserved structure of the coding regions. Considering the polymorphism in the common ancestor of cynomolgus and rhesus macaques and the rate of PCR errors, the divergence time between the two species was estimated to be around 0.9 million years ago. Conclusion: Transcript data from Old World monkeys provide a means not only to determine the evolutionary difference between human and non-human primates but also to unveil hidden transcripts in the human genome. Increasing the genomic resources and information of macaque monkeys will greatly contribute to the development of evolutionary biology and biomedical sciences.
Mesh-Begriff(e)	Animals ; DNA, Complementary/chemistry ; DNA, Complementary/genetics ; Databases, Genetic ; Evolution, Molecular ; Female ; Gene Expression Profiling ; Gene Library ; Genetic Variation ; Genome, Human/genetics ; Genomics/methods ; Humans ; Macaca fascicularis/genetics ; Macaca mulatta/genetics ; Male ; Models, Biological ; Molecular Sequence Data ; Oligonucleotide Array Sequence Analysis ; Polymorphism, Genetic ; Sequence Analysis, DNA ; Transcription, Genetic
Chemische Substanzen	DNA, Complementary
Sprache	Englisch
Erscheinungsdatum	2008-02-24
Erscheinungsland	England
Dokumenttyp	Comparative Study ; Journal Article ; Research Support, Non-U.S. Gov't
ISSN	1471-2164
ISSN (online)	1471-2164
DOI	10.1186/1471-2164-9-90
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Apolipoprotein M Inhibits Angiogenic and Inflammatory Response by Sphingosine 1-Phosphate on Retinal Pigment Epithelium Cells

Ryo Terao / Megumi Honjo / Makoto Aihara

International Journal of Molecular Sciences, Vol 19, Iss 1, p

2017 Band 112

Abstract: ... have suggested that apolipoprotein M (ApoM), a carrier protein for S1P, modulates ...

Abstract	Sphingosine 1-phosphate (S1P) is a potent lipid mediator that modulates inflammatory responses and proangiogenic factors. It has been suggested that S1P upregulates choroidal neovascularization (CNV) and may be deeply involved in the pathogenesis of exudative age-related macular degeneration (AMD). Recent studies have suggested that apolipoprotein M (ApoM), a carrier protein for S1P, modulates the biological properties of S1P in the pathogenesis of atherosclerosis. However, the role of ApoM/S1P in AMD has not been explored. We investigated the effect of S1P on proangiogenic factors in human retinal pigment epithelium (RPE) cell lines in vitro. S1P promoted the expression of vascular endothelial growth factor in RPE cells. Hypoxia inducible factor-1α expression was also upregulated. These S1P-induced enhancements in growth factors and chemotactic cytokines in RPE cells were significantly inhibited by ApoM treatment. Additionally, in vivo experiments using a laser-induced CNV murine model demonstrated that intravitreal ApoM injection significantly reduced the progression of CNV formation. Although the detailed mechanisms remain to be elucidated, the present results provide a novel potential therapeutic target for AMD, and demonstrate a suppressive role for ApoM and S1P in the pathology of CNV progression.
Schlagwörter	sphingosine 1-phosphate ; sphingolipids and inflammation ; S1P-receptors ; apolipoprotein M ; high-density lipoprotein ; choroidal neovascularization ; age-related macular degeneration ; vascular endothelial growth factor ; hypoxia inducible factor ; interleukin-8 ; Biology (General) ; QH301-705.5 ; Chemistry ; QD1-999
Thema/Rubrik (Code)	610
Sprache	Englisch
Erscheinungsdatum	2017-12-01T00:00:00Z
Verlag	MDPI AG
Dokumenttyp	Artikel ; Online
Datenquelle	BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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Artikel ; Online: Ni-catalyzed regioselective three-component coupling of alkyl halides, arylalkynes, or enynes with R-M (M = MgX', ZnX').

Terao, Jun / Bando, Fumiaki / Kambe, Nobuaki

Chemical communications (Cambridge, England)

2009 , Heft 47, Seite(n) 7336–7338

Abstract: A new method for the regioselective three-component cross-coupling of alkyl halides, alkynes, or enynes with organomagnesium or organozinc reagents in the presence of a nickel catalyst and a dppb ligand has been developed. ...

Abstract	A new method for the regioselective three-component cross-coupling of alkyl halides, alkynes, or enynes with organomagnesium or organozinc reagents in the presence of a nickel catalyst and a dppb ligand has been developed.
Sprache	Englisch
Erscheinungsdatum	2009-12-21
Erscheinungsland	England
Dokumenttyp	Journal Article
ZDB-ID	1472881-3
ISSN	1364-548X ; 1359-7345 ; 0009-241X
ISSN (online)	1364-548X
ISSN	1359-7345 ; 0009-241X
DOI	10.1039/b918548h
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Crystal Structures of Piperazinium Tetrahalogenometallates (II) [C4H12N2]MX4 (M = Zn, Hg; X = Br, I)

Ishihara, Hideta / Keizo Horiuchi / Ingrid Svoboda / Hartmut Fuess / Thorsten M. Gesing / J.-Christian Buhl / Hiromitsu Terao

Zeitschrift für Naturforschung. 2014 June 2, v. 61, no. 1

2014

Abstract: The crystal structures of piperazinium tetrahalogenometallates (II) [C₄H₁₂N₂]MX₄(M = Zn, Hg; X = Br ...

Abstract	The crystal structures of piperazinium tetrahalogenometallates (II) [C₄H₁₂N₂]MX₄(M = Zn, Hg; X = Br, I), orthorhombic with space group P2₁2₁2₁ and Z = 4 are isostructural with [C₄H₁₂N₂]CdI₄. The structure consists of piperazinium cations and isolated tetrahedralMX4 anions. [C₄H₁₂N₂]ZnBr₄ (1): a = 850.4(2), b = 1146.5(3), and c = 1228.4(4) pm at 300(2) K, [C₄H₁₂N₂]ZnI₄ (2): a = 886.89(6), b = 1209.11(9), and c = 1293.79(9) pm at 223(2) K, [C₄H₁₂N₂]HgBr₄ (3): a = 865.48(14), b = 1158.7(3), and c = 1233.3(2) pm at 293(2) K, [C₄H₁₂N₂]HgI₄ (4): a = 899.6(2), b = 1230.0(2), and c = 1299.5(3) pm at 293(2) K. All crystals show a structural phase transition at about 560 K and decomposition temperatures above 600 K. The lattice stability of the crystals is well explained by N-H · · · X hydrogen bond networks.
Schlagwörter	anions ; bromine ; cations ; crystal structure ; crystals ; hydrogen bonding ; iodine ; mercury ; phase transition ; temperature ; zinc
Sprache	Englisch
Erscheinungsverlauf	2014-0602
Umfang	p. 69-72.
Erscheinungsort	Verlag der Zeitschrift für Naturforschung
Dokumenttyp	Artikel
ZDB-ID	124635-5
ISSN	0340-5087 ; 0044-3174 ; 0932-0776 ; 0341-0447 ; 0341-0420
ISSN	0340-5087 ; 0044-3174 ; 0932-0776 ; 0341-0447 ; 0341-0420
DOI	10.1515/znb-2006-0114
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Artikel ; Online: Comprehension of degraded speech sounds with m-sequence modulation: an fMRI study.

Takeichi, Hiroshige / Koyama, Sachiko / Terao, Atsushi / Takeuchi, Fumiya / Toyosawa, Yuko / Murohashi, Harumitsu

NeuroImage

2010 Band 49, Heft 3, Seite(n) 2697–2706

Abstract: ... technique for assessing speech comprehension using speech degraded by m-sequence modulation and found ... alternating-block factorial design was used with 23 Japanese-speaking participants, with time reversal and m ...

Abstract	In a recent electroencephalography (EEG) study (Takeichi et al., 2007a), we developed a new technique for assessing speech comprehension using speech degraded by m-sequence modulation and found a correlation peak with a 400-ms delay. This peak depended on the comprehensibility of the modulated speech sounds. Here we report the results of a functional magnetic resonance imaging (fMRI) experiment comparable to our previous EEG experiment. We examined brain areas related to verbal comprehension of the modulated speech sound to examine which neural system processes this modulated speech. A non-integer, alternating-block factorial design was used with 23 Japanese-speaking participants, with time reversal and m-sequence modulation as factors. A main effect of time reversal was found in the left temporal cortex along the superior temporal sulcus (BA21 and BA39), left precentral gyrus (BA6) and right inferior temporal gyrus (BA21). A main effect of modulation was found in the left postcentral gyrus (BA43) and the right medial frontal gyri (BA6) as an increase by modulation and in the left temporal cortex (BA21, 39), parahippocampal gyrus (BA34), posterior cingulate (BA23), caudate and thalamus and right superior temporal gyrus (BA38) as a decrease by modulation. An interaction effect associated specifically with non-modulated speech was found in the left frontal gyrus (BA47), left occipital cortex in the cuneus (BA18), left precuneus (BA7, 31), right precuneus (BA31) and right thalamus (forward>reverse). The other interaction effect associated specifically with modulation of speech sound was found in the inferior frontal gyrus in the opercular area (BA44) (forward>reverse). Estimated scalp projection of the component correlation function (Cao et al., 2002) for the corresponding EEG data (Takeichi et al., 2007a, showed leftward dominance. Hence, activities in the superior temporal sulcus (BA21 and BA39), which are commonly observed for speech processing, as well as left precentral gyrus (BA6) and left inferior frontal gyrus in the opercular area (BA44) is suggested to contribute to the comprehension-related EEG signal.
Mesh-Begriff(e)	Adult ; Brain/physiology ; Brain Mapping ; Comprehension/physiology ; Female ; Functional Laterality/physiology ; Humans ; Image Interpretation, Computer-Assisted ; Magnetic Resonance Imaging ; Male ; Phonetics ; Speech Perception/physiology ; Young Adult
Sprache	Englisch
Erscheinungsdatum	2010-02-01
Erscheinungsland	United States
Dokumenttyp	Journal Article ; Research Support, Non-U.S. Gov't
ZDB-ID	1147767-2
ISSN	1095-9572 ; 1053-8119
ISSN (online)	1095-9572
ISSN	1053-8119
DOI	10.1016/j.neuroimage.2009.10.063
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Ni-catalyzed regioselective three-component coupling of alkyl halides, arylalkynes, or enynes with R–M (M = MgX′, ZnX′)

Terao, Jun / Bando, Fumiaki / Kambe, Nobuaki

Chemical communications. 2009 Nov. 24, , no. 47

2009

Abstract	A new method for the regioselective three-component cross-coupling of alkyl halides, alkynes, or enynes with organomagnesium or organozinc reagents in the presence of a nickel catalyst and a dppb ligand has been developed.
Schlagwörter	alkynes ; catalysts ; catalytic activity ; chemical communication ; cross-coupling reactions ; ligands ; nickel ; organic halogen compounds ; regioselectivity
Sprache	Englisch
Erscheinungsverlauf	2009-1124
Umfang	p. 7336-7338.
Erscheinungsort	The Royal Society of Chemistry
Dokumenttyp	Artikel
ZDB-ID	1472881-3
ISSN	1364-548X ; 1359-7345 ; 0009-241X
ISSN (online)	1364-548X
ISSN	1359-7345 ; 0009-241X
DOI	10.1039/b918548h
Datenquelle	NAL Katalog (AGRICOLA)

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Artikel ; Online: Ancient genome-wide admixture extends beyond the current hybrid zone between Macaca fascicularis and M. mulatta.

Osada, Naoki / Uno, Yasuhiro / Mineta, Katsuhiko / Kameoka, Yosuke / Takahashi, Ichiro / Terao, Keiji

Molecular ecology

2010 Band 19, Heft 14, Seite(n) 2884–2895

Abstract: ... autosomal loci obtained from M. fascicularis samples from three different geographic origins and M. mulatta ... samples of Burmese origin. M. fascicularis shows high nucleotide diversity, four to five times higher ... The pattern of divergence and polymorphism between M. fascicularis and M. mulatta shows a footprint of genetic ...

Abstract	Macaca fascicularis and Macaca mulatta are two of the most commonly used laboratory macaques, yet their genetic differences at a genome-wide level remain unclear. We analysed the multilocus DNA sequence data of 54 autosomal loci obtained from M. fascicularis samples from three different geographic origins and M. mulatta samples of Burmese origin. M. fascicularis shows high nucleotide diversity, four to five times higher than humans, and a strong geographic population structure between Indonesian-Malaysian and Philippine macaques. The pattern of divergence and polymorphism between M. fascicularis and M. mulatta shows a footprint of genetic exchange not only within their current hybrid zone but also across a wider range for more than 1 million years. However, genetic admixture may not be a random event in the genome. Whereas randomly selected genic and intergenic regions have the same evolutionary dynamics between the species, some cytochrome oxidase P450 (CYP) genes (major chemical metabolizing genes and potential target genes for local adaptation) have a significantly larger species divergence than other genes. By surveying CYP3A5 gene sequences of more than a hundred macaques, we identified three nonsynonymous single nucleotide polymorphisms that were highly differentiated between the macaques. The mosaic pattern of species divergence in the genomes may be a consequence of genetic differentiation under ecological adaptation and may be a salient feature in the genomes of nascent species under parapatry.
Mesh-Begriff(e)	Animals ; Comparative Genomic Hybridization ; Cytochrome P-450 Enzyme System/genetics ; Evolution, Molecular ; Female ; Genetics, Population ; Genome ; Hybridization, Genetic ; Macaca fascicularis/genetics ; Macaca mulatta/genetics ; Male ; Polymorphism, Single Nucleotide ; Sequence Analysis, DNA ; Species Specificity
Chemische Substanzen	Cytochrome P-450 Enzyme System (9035-51-2)
Sprache	Englisch
Erscheinungsdatum	2010-07
Erscheinungsland	England
Dokumenttyp	Journal Article ; Research Support, Non-U.S. Gov't
ZDB-ID	1126687-9
ISSN	1365-294X ; 0962-1083
ISSN (online)	1365-294X
ISSN	0962-1083
DOI	10.1111/j.1365-294X.2010.04687.x
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Buch ; Online: Faster Matroid Partition Algorithms

Terao, Tatsuya

2023

Abstract: In the matroid partitioning problem, we are given $k$ matroids $\mathcal{M}_1 = (V, \mathcal{I}_1 ... dots , \mathcal{M}_k = (V, \mathcal{I}_k)$ defined over a common ground set $V$ of $n$ elements, and ...

Abstract	In the matroid partitioning problem, we are given $k$ matroids $\mathcal{M}_1 = (V, \mathcal{I}_1), \dots , \mathcal{M}_k = (V, \mathcal{I}_k)$ defined over a common ground set $V$ of $n$ elements, and we need to find a partitionable set $S \subseteq V$ of largest possible cardinality, denoted by $p$. Here, a set $S \subseteq V$ is called partitionable if there exists a partition $(S_1, \dots , S_k)$ of $S$ with $S_i \in \mathcal{I}_i$ for $i = 1, \ldots, k$. In 1986, Cunningham [SICOMP 1986] presented a matroid partition algorithm that uses $O(n p^{3/2} + k n)$ independence oracle queries, which was the previously known best algorithm. This query complexity is $O(n^{5/2})$ when $k \leq n$. Our main result is to present a matroid partition algorithm that uses $\tilde{O}(k'^{1/3} n p + k n)$ independence oracle queries, where $k' = \min\{k, p\}$. This query complexity is $\tilde{O}(n^{7/3})$ when $k \leq n$, and this improves upon the one of previous Cunningham's algorithm. To obtain this, we present a new approach \emph{edge recycling augmentation}, which can be attained through new ideas: an efficient utilization of the binary search technique by Nguyen [2019] and Chakrabarty-Lee-Sidford-Singla-Wong [FOCS 2019] and a careful analysis of the independence oracle query complexity. Our analysis differs significantly from the one for matroid intersection algorithms, because of the parameter $k$. We also present a matroid partition algorithm that uses $\tilde{O}((n + k) \sqrt{p})$ rank oracle queries. Comment: 26 pages, 1 figure, A preliminary version appears in ICALP 2023
Schlagwörter	Computer Science - Data Structures and Algorithms ; Computer Science - Discrete Mathematics
Thema/Rubrik (Code)	005
Erscheinungsdatum	2023-03-10
Erscheinungsland	us
Dokumenttyp	Buch ; Online
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