Your search keyword '"Rietz S"' showing total 70 results

1. Multi-Sensor-Controller mit CAN-Feldbus-Interface

Author

Rietz, S., Fischer, W.-J., Dietrich, Dietmar, editor, and Schweinzer, Herbert, editor

Published

1997

2. Interpersonelle Psychotherapie und Pharmakotherapie bei Post-Stroke-Depression: Machbarkeit und Effektivität

Author

Finkenzeller, W., Zobel, I., Rietz, S., Schramm, E., and Berger, M.

Published

2009

3. Langzeit-Ansprechen unter Vemurafenib-Therapie bei Patienten mit metastasiertem malignen Melanom: FV21

Author

Groffik, A, Müller-Brenne, T, Rudolph, B, Rietz, S, Grabbe, S, and Loquai, C

Published

2013

4. Die Prognose des apallischen Syndroms Ein Literaturüberblick: Ein Literaturüberblick

Author

Hagel, K. and Rietz, S.

Published

1998

5. Abstracts from the Food Allergy and Anaphylaxis Meeting 2016

Author

Pouessel, G, Claverie, C, Labreuche, J, Renaudin, J-M, Dorkenoo, A, Eb, M, Moneret-Vautrin, A, Deschildre, A, Leteurtre, S, Grabenhenrich, L, Worm, M, Dölle, S, Scherer, K, Hutteger, I, Christensen, M, Bindslev-Jensen, C, Mortz, C, Eller, E, Kjaer, HF, Carneiro-Leão, L, Badas, J, Coimbra, A, Levy, DP, Ben-Shoshan, M, Rimon, A, Benor, S, Arends, NJT, Edelbroek, N, de Groot, H, Emons, JAM, Brand, HKA, Verhoeven, D, van Veen, LN, de Jong, NW, Noh, G, Jang, EH, Pascal, M, Dominguez, O, Piquer, M, Alvaro, M, Jimenez-Feijoo, R, Lozano, J, Machinena, A, del Mar Folqué, M, Giner, MT, Plaza, AM, Turner, P, Patel, N, Vazquez-Ortiz, M, Lindsley, S, Walker, L, Rosenberg, S, Mari, A, Alessandri, C, Giangrieco, I, Tuppo, L, Rafaiani, C, Mitterer, G, Ciancamerla, M, Ferrara, R, Bernardi, ML, Zennaro, D, Tamburrini, M, Ciardiello, MA, Harwanegg, C, Fernandez, A, Selb, R, Egenmann, P, Epstein, M, Hoffmann-Sommergruber, K, Koning, F, Lovik, M, Clare Mills, EN, Moreno, J, van Loveren, H, Wal, J-M, Diesner, S, Bergmayr, C, Pfitzner, B, Assmann, VE, Starkl, P, Endesfelder, D, Eiwegger, T, Szepfalusi, Z, Fehrenbach, H, Jensen-Jarolim, E, Hartmann, A, Pali-Schöll, I, Untersmayr, E, Wille, S, Meyer, P, Klingebiel, C, Lidholm, J, Ehrenberg, A, Östling, J, Cleach, I, Mège, J-L, Vitte, J, Aina, R, Dubiela, P, Pfeifer, S, Bublin, M, Radauer, C, Humeniuk, P, Kabasser, S, Asero, R, Bogas, G, Gomez, F, Campo, P, Salas, M, Doña, I, Barrionuevo, E, Guerrero, MA, Mayorga, C, Prieto, A, Barber, D, Torres, MJ, Jamin, A, Wangorsch, A, Ballmer, B, Vieths, S, Scheurer, S, Apostolovic, D, Mihailovic, J, Krstic, M, Starkhammar, M, Velickovic, TC, Hamsten, C, van Hage, M, van Erp, FC, Knol, EF, Kansen, HM, Pontoppidan, B, Meijer, Y, van der Ent, CK, Knulst, AC, Sayers, R, Brown, H, Custovic, A, Simpson, A, Mills, C, Schulz, J, Akkerdaas, J, Totis, M, Capt, A, Herouet-Guicheney, C, van Ree, R, Banerjee, T, Banerjee, A, Claude, M, Bouchaud, G, Lupi, R, Castan, L, Tranquet, O, Denery-Papini, S, Bodinier, M, Brossard, C, De Poi, R, Gritti, E, De Dominicis, E, Popping, B, de Laureto, PP, Palosuo, K, Kukkonen, AK, Pelkonen, A, Mäkelä, M, Lee, NA, Rost, J, Muralidharan, S, Campbell, D, Mehr, S, Nock, C, Baumert, J, Taylor, S, Mastrorilli, C, Tripodi, S, Caffarelli, C, Perna, S, Di Rienzo Businco, A, Sfika, I, Dondi, A, Bianchi, A, Dascola, CP, Ricci, G, Cipriani, F, Maiello, N, del Giudice, MM, Frediani, T, Frediani, S, Macrì, F, Pistoletti, C, Iacono, ID, Patria, MF, Varin, E, Peroni, D, Comberiati, P, Chini, L, Moschese, V, Lucarelli, S, Bernardini, R, Pingitore, G, Pelosi, U, Olcese, R, Moretti, M, Cirisano, A, Faggian, D, Travaglini, A, Plebani, M, Verga, MC, Calvani, M, Giordani, P, Matricardi, PM, Ontiveros, N, Cabrera-Chavez, F, Galand, J, Beaudouin, E, Pineau, F, Sakai, S, Matsunaga, K, Teshima, R, Larré, C, Denery, S, Tschirner, S, Trendelenburg, V, Schulz, G, Niggemann, B, Beyer, K, Bouferkas, Y, Belabbas, Y, Saidi, D, Kheroua, O, Mecherfi, KEE, Guendouz, M, Haddi, A, Kaddouri, H, Amaral, L, Pereira, A, Rodrigues, S, Datema, M, Jongejan, L, Clausen, M, Knulst, A, Papadopoulos, N, Kowalski, M, de Blay, F, Zwinderman, A, Hoffman-Sommergruber, K, Ballmer-Weber, B, Fernandez-Rivas, M, Deng, S, Yin, J, Eisenmann, C, Nassiri, M, Reinert, R, van der Valk, JPM, van Wijk, RG, Vergouwe, Y, Steyerberg, EW, Reitsma, M, Wichers, HJ, Savelkoul, HFJ, Vlieg-Boerstra, B, Dubois, AEJ, Carolino, F, Rodolfo, A, Cernadas, J, Roa-Medellín, D, Rodriguez-Fernandez, A, Navarro, J, Albendiz, V, Baeza, ML, Intente-Herrero, S, Mikkelsen, A, Mehlig, K, Lissner, L, Verrill, L, Luccioli, S, van Bilsen, J, Kuper, F, Wolterbeek, A, Rankouhi, TR, Verschuren, L, Cnossen, H, Jeurink, P, Garssen, J, Knippels, L, Garthoff, J, Houben, G, Leeman, W, Eleonore Pettersson, M, Schins, AMM, Koppelman, GH, Kollen, BJ, Zubchenko, S, Kuntz, S, Mérida, P, Álvaro, M, Riggioni, C, Castellanos, JH, Jimenez, R, Cap, M, Drumez, E, Lejeune, S, Thumerelle, C, Mordacq, C, Nève, V, Ricò, S, Varini, M, Nocerino, R, Cosenza, L, Amoroso, A, Di Costanzo, M, Di Scala, C, Bedogni, G, Canani, RB, Turner, PJ, Poza-Guedes, P, González-Pérez, R, Sánchez-Machín, I, Matheu-Delgado, V, Wambre, E, Ballegaard, A-S, Madsen, C, Gregersen, J, Bøgh, KL, Aubert, P, Neunlist, M, Magnan, A, Lozano-Ojalvo, D, Pablos-Tanarro, A, Pérez-Rodríguez, L, Molina, E, López-Fandiño, R, Rekima, A, Macchiaverni, P, Turfkruyer, M, Holvoet, S, Dupuis, L, Baiz, N, Annesi-Maesano, I, Mercenier, A, Nutten, S, Verhasselt, V, Mrakovcic-Sutic, I, Banac, S, Sutic, I, Baricev-Novakovic, Z, Pavisic, V, Muñoz-Cano, R, Jiménez-Rodríguez, T, Corbacho, D, Roca-Ferrer, J, Bartra, J, Bulog, A, Micovic, V, Markiewicz, L, Szymkiewicz, A, Szyc, A, Wróblewska, B, Harvey, BM, Harthoorn, LF, Wesley Burks, A, Rentzos, G, Björk, A-LB, Bengtsson, U, Barber, C, Kalicinsky, C, Breynaert, C, Coorevits, L, Jansen, C, Van Hoeyveld, E, Verbeke, K, Kochuyt, A-M, Schrijvers, R, Deleanu, D, Muntean, A, Konstantakopoulou, M, Pasioti, M, Papadopoulou, A, Iliopoulou, A, Mikos, N, Kompoti, E, de Castro, ED, Bartalomé, B, Ue, KL, Griffiths, E, Till, S, Grimshaw, K, Roberts, G, Selby, A, Butiene, I, Larco, JI, Dubakiene, R, Fiandor, A, Fiocchi, A, Sigurdardottir, S, Sprikkelman, A, Schoemaker, A-F, Xepapadaki, P, Keil, T, Cojocariu, Z, Barbado, BS, Iancu, V, Arroabarren, E, Esarte, MG, Arteaga, M, Andrade, MC, Borges, D, Kalil, J, Bianchi, PG, Agondi, RC, Gupta, RK, Sharma, A, Gupta, K, Das, M, Dwivedi, P, Karseladze, R, Jorjoliani, L, Saginadze, L, Tskhakaia, M, Basello, K, Piuri, G, Speciani, AF, Speciani, MC, Camerotto, C, Zinno, F, Pakholchuk, O, Nedelska, S, Pattini, S, Costantino, MT, Peveri, S, Villalta, D, Savi, E, Costanzi, A, Revyakina, VA, Kiseleva, MA, Kuvshinova, ED, Larkova, IA, Shekhetov, AA, Silva, D, Moreira, A, Plácido, J, van der Kleij, H, van Twuijver, E, Sutorius, R, de Kam, P-J, van Odijk, J, Lindqvist, H, Lustig, E, Jácome, AAA, Aguilar, KLB, Domínguez, MG, Hernández, DAM, Caruso, C, Casale, C, Rapaccini, GL, Romano, A, De Vitis, I, Cocco, RR, Aranda, C, Mallozi, MC, Motta, JF, Moraes, L, Pastorino, A, Rosario, N, Goudouris, E, Porto, A, Wandalsen, NF, Sarinho, E, Sano, F, Solé, D, Pitsios, C, Petrodimopoulou, M, Papadopoulou, E, Passioti, M, Kontogianni, M, Adamia, N, Khaleva, E, del Prado, AP, Du Toit, G, Krzych, E, Samolinska-Zawisza, U, Furmanczyk, K, Tomaszewska, A, Raciborski, F, Lipiec, A, Samel-Kowalik, P, Walkiewicz, A, Borowicz, J, Samolinski, B, Nano, AL, Recto, M, Somoza, ML, López, NB, Alzate, DP, Ruano, FJ, Garcimartín, MI, Haroun, E, de la Torre, MV, Rojas, A, Onieva, ML, Canto, G, Rodrigues, A, Forno, A, Cabral, AJ, Gonçalves, R, Vorozhko, I, Sentsova, T, Chernyak, O, Denisova, S, Ilènko, L, Muhortnich, V, Zimmermann, C, Rohrbach, A, Bakhsh, FR, Boudewijn, K, Oomkes-Pilon, A-M, Van Ginkle, D, Šilar, M, Jeverica, A, Vesel, T, Avčin, T, Korošec, P, van der Valk, J, Berends, I, Arends, N, van Maaren, M, Wichers, H, Emons, J, Dubois, A, de Jong, N, Matsyura, O, Besh, L, Huang, C-H, Jan, T-R, Stiefel, G, Tratt, J, Kirk, K, Arasi, S, Caminiti, L, Crisafulli, G, Fiamingo, C, Fresta, J, Pajno, G, Remington, B, Kruizinga, A, Marty Blom, W, Westerhout, J, Bijlsma, S, Blankestijn, M, Otten, H, Klemans, R, Michelsen-Huisman, AD, van Os-Medendorp, H, Kruizinga, AG, Versluis, A, van Duijn, G, de Zeeuw-Brouwer, HM-L, Castenmiller, JJM, Noteborn, HPJM, Houben, GF, Bravin, K, Luyt, D, Javed, B, Couch, P, Munro, C, Padfield, P, Sperrin, M, Byrne, A, Oosthuizen, L, Kelleher, C, Ward, F, Brosnan, N, King, G, Corbet, E, Guzmán, JAH, García, MB, Asensio, O, Navarrete, LV, Larramona, H, Miró, XD, Pyrz, K, Austin, M, Boloh, Y, Galloway, D, Hernandez, P, Hourihane, JOB, Kenna, F, Majkowska-Wojciechowska, B, Regent, L, Themisb, M, Schnadt, S, Semic-Jusufagic, A, Galvin, AD, Kauppila, T, Kuitunen, M, Kitsioulis, NA, Douladiris, N, Kostoudi, S, Manolaraki, I, Mitsias, D, Manousakis, E, Papadopoulos, NG, Knibb, R, Hammond, J, Cooke, R, Yrjänä, J, Hanni, A-M, Vähäsarja, P, Mustonen, O, Dunder, T, Kulmala, P, Lasa, E, D’Amelio, C, Martínez, S, Joral, A, Gastaminza, G, Goikoetxea, MJ, Candy, DCA, Van Ampting, MTJ, Oude Nijhuis, MM, Butt, AM, Peroni, DG, Fox, AT, Knol, J, Michaelis, LJ, Padua, I, Padrao, P, Moreira, P, Barros, R, Sharif, H, Ahmed, M, Gomaa, N, Mens, J, Smit, K, Timmermans, F, Poredoš, T, Jeverica, AK, Sedmak, M, Benedik, E, Accetto, M, Zupančič, M, Yonamine, G, Soldateli, G, Aquilante, B, Pastorino, AC, de Moraes Beck, CL, Gushken, AK, de Barros Dorna, M, dos Santos, CN, Castro, APM, Al-Qahtani, A, Arnaout, R, Khaliq, AR, Amin, R, Sheikh, F, Alvarez, J, Anda, M, Palacios, M, De Prada, M, Ponce, C, Balbino, B, Sibilano, R, Marichal, T, Gaudenzio, N, Karasuyama, H, Bruhns, P, Tsai, M, Reber, LL, Galli, SJ, Ferreira, AR, Cernadas, JR, del Campo García, A, Fernández, SP, Carrera, NS, Sánchez-Cruz, FB, Lorenzo, JRF, Claus, S, Pföhler, C, Ruëff, F, Treudler, R, Jaume, ME, Madroñero, A, Perez, MTG, Julia, JC, Plovdiv, CH, Gethings, L, Langridge, J, Adel-Patient, K, Bernard, H, Barcievic-Jones, I, Sokolova, R, Yankova, R, Ivanovska, M, Murdjeva, M, Popova, T, Dermendzhiev, S, Karjalainen, M, Lehnigk, U, Brown, D, Locklear, JC, Locklear, J, Maris, I, Hourihane, J, Ornelas, C, Caiado, J, Ferreira, MB, Pereira-Barbosa, M, Puente, Y, Daza, JC, Monteseirin, FJ, Ukleja-Sokolowska, N, Gawronska-Ukleja, E, Zbikowska-Gotz, M, Bartuzi, Z, Sokolowski, L, Adams, A, Mahon, B, English, K, Gourdon-Dubois, N, Sellam, L, Pereira, B, Michaud, E, Messaoudi, K, Evrard, B, Fauquert, J-L, Palomares, F, Gomez, G, Rodriguez, MJ, Galindo, L, Molina, A, Paparo, L, Mennini, M, Aitoro, R, Wawrzeńczyk, A, Przybyszewski, M, Sarıcoban, HE, Ugras, M, Yalvac, Z, Flokstra-de Blok, BMJ, van der Velde, JL, Vereda, A, Ippolito, C, Traversa, A, Adriano, D, Bianchi, DM, Gallina, S, Decastelli, L, Makatsori, M, Miles, A, Devetak, SP, Devetak, I, Tabet, SA, Trandbohus, JF, Winther, P, Malling, H-J, Hansen, KS, Garvey, LH, Wang, C-C, Cheng, Y-H, Tung, C-W, Dietrich, M, Marenholz, I, Kalb, B, Grosche, S, Blümchen, K, Schlags, R, Price, M, Rietz, S, Esparza-Gordillo, J, Lau, S, Lee, Y-A, Almontasheri, A, Bahkali, MA, Elshorbagi, S, Alfhaid, A, Altamimi, M, Madbouly, E, Al-Dhekri, H, Arnaout, RK, Basagaña, M, Miquel, S, Bartolomé, B, Brix, B, Rohwer, S, Brandhoff, S, Berger, A, Suer, W, Weimann, A, Bueno, C, Martín-Pedraza, L, Abián, S, Segundo-Acosta, PS, López-Rodríguez, JC, Barderas, R, Batanero, E, Cuesta-Herranz, J, Villalba, MT, Correia, M, Benito-Garcia, F, Arêde, C, Piedade, S, Morais-Almeida, M, Hindley, J, Yarham, R, Kuklinska-Pijanka, A, Gillick, D, Patient, K, Chapman, MD, Miranda, A, Matos, E, Sokolova, A, Rao, H, Baricevic-Jones, I, Smith, F, Xue, W, Magnusdottir, H, Vidarsdottir, AG, Lund, S, Jensen, AB, Ludviksson, BR, Simon, R, Elfont, R, Bennett, S, Voyksner, R, de Lurdes Torre, M, Yürek, S, Faber, MA, Bastiaensen, A, Mangodt, E, van Gasse, A, Decuyper, I, Sabato, V, Hagendorens, MM, Bridts, CH, De Clerck, LS, Ebo, D, Schwarz, S, Ziegert, M, Albroscheit, S, Schwager, C, Kull, S, Behrends, J, Röckendorf, N, Schocker, F, Frey, A, Homann, A, Becker, W-M, Jappe, U, Zaabat, N, Osscini, S, Agabriel, C, Sterling, B, Carsin, A, Liabeuf, V, Maćków, M, Zbróg, A, Bronkowska, M, Courtois, J, Gadisseur, R, Bertholet, C, Lukas, P, Cavalier, E, Delahaut, P, Quinting, B, Gertmo, MB, Hasseus, ET, Barzylovych, V, Oliveira, J, Ensina, LF, Aranda, CS, Dopazo, L, Lopez, R, Perez, R, Santos-Diez, L, Bilbao, A, Garcia, JM, Núñez, IG, Mármol, MÁA, Villarejo, MJB, Martos, JAB, Vergara, MS, García, JMI, Michalska, A, Sergiejko, G, Zacniewski, R, Ghiordanescu, I-M, Deaconu, C, Popescu, M, Bumbacea, RS, Ibranji, A, Nikolla, E, Loloci, G, Juel-Berg, N, Larsen, LF, Poulsen, LK, Marcelino, J, Prata, R, Costa, AC, Duarte, F, Neto, M, Santos, J, Pestana, LC, Sampaio, D, Minale, P, Dignetti, P, Bignardi, D, Nedelea, I, Popescu, F-D, Vieru, M, Secureanu, F-A, Ganea, CS, Vieira, M, Silva, JPM, Watts, T, Watts, S, Lomikovska, M, Peredelskaya, M, Nenasheva, N, Filipovic, I, Zivkovic, Z, Filipovic, D, Higgs, J, Warner, A, Jones, C, Pouessel, G, Claverie, C, Labreuche, J, Renaudin, J-M, Dorkenoo, A, Eb, M, Moneret-Vautrin, A, Deschildre, A, Leteurtre, S, Grabenhenrich, L, Worm, M, Dölle, S, Scherer, K, Hutteger, I, Christensen, M, Bindslev-Jensen, C, Mortz, C, Eller, E, Kjaer, HF, Carneiro-Leão, L, Badas, J, Coimbra, A, Levy, DP, Ben-Shoshan, M, Rimon, A, Benor, S, Arends, NJT, Edelbroek, N, de Groot, H, Emons, JAM, Brand, HKA, Verhoeven, D, van Veen, LN, de Jong, NW, Noh, G, Jang, EH, Pascal, M, Dominguez, O, Piquer, M, Alvaro, M, Jimenez-Feijoo, R, Lozano, J, Machinena, A, del Mar Folqué, M, Giner, MT, Plaza, AM, Turner, P, Patel, N, Vazquez-Ortiz, M, Lindsley, S, Walker, L, Rosenberg, S, Mari, A, Alessandri, C, Giangrieco, I, Tuppo, L, Rafaiani, C, Mitterer, G, Ciancamerla, M, Ferrara, R, Bernardi, ML, Zennaro, D, Tamburrini, M, Ciardiello, MA, Harwanegg, C, Fernandez, A, Selb, R, Egenmann, P, Epstein, M, Hoffmann-Sommergruber, K, Koning, F, Lovik, M, Clare Mills, EN, Moreno, J, van Loveren, H, Wal, J-M, Diesner, S, Bergmayr, C, Pfitzner, B, Assmann, VE, Starkl, P, Endesfelder, D, Eiwegger, T, Szepfalusi, Z, Fehrenbach, H, Jensen-Jarolim, E, Hartmann, A, Pali-Schöll, I, Untersmayr, E, Wille, S, Meyer, P, Klingebiel, C, Lidholm, J, Ehrenberg, A, Östling, J, Cleach, I, Mège, J-L, Vitte, J, Aina, R, Dubiela, P, Pfeifer, S, Bublin, M, Radauer, C, Humeniuk, P, Kabasser, S, Asero, R, Bogas, G, Gomez, F, Campo, P, Salas, M, Doña, I, Barrionuevo, E, Guerrero, MA, Mayorga, C, Prieto, A, Barber, D, Torres, MJ, Jamin, A, Wangorsch, A, Ballmer, B, Vieths, S, Scheurer, S, Apostolovic, D, Mihailovic, J, Krstic, M, Starkhammar, M, Velickovic, TC, Hamsten, C, van Hage, M, van Erp, FC, Knol, EF, Kansen, HM, Pontoppidan, B, Meijer, Y, van der Ent, CK, Knulst, AC, Sayers, R, Brown, H, Custovic, A, Simpson, A, Mills, C, Schulz, J, Akkerdaas, J, Totis, M, Capt, A, Herouet-Guicheney, C, van Ree, R, Banerjee, T, Banerjee, A, Claude, M, Bouchaud, G, Lupi, R, Castan, L, Tranquet, O, Denery-Papini, S, Bodinier, M, Brossard, C, De Poi, R, Gritti, E, De Dominicis, E, Popping, B, de Laureto, PP, Palosuo, K, Kukkonen, AK, Pelkonen, A, Mäkelä, M, Lee, NA, Rost, J, Muralidharan, S, Campbell, D, Mehr, S, Nock, C, Baumert, J, Taylor, S, Mastrorilli, C, Tripodi, S, Caffarelli, C, Perna, S, Di Rienzo Businco, A, Sfika, I, Dondi, A, Bianchi, A, Dascola, CP, Ricci, G, Cipriani, F, Maiello, N, del Giudice, MM, Frediani, T, Frediani, S, Macrì, F, Pistoletti, C, Iacono, ID, Patria, MF, Varin, E, Peroni, D, Comberiati, P, Chini, L, Moschese, V, Lucarelli, S, Bernardini, R, Pingitore, G, Pelosi, U, Olcese, R, Moretti, M, Cirisano, A, Faggian, D, Travaglini, A, Plebani, M, Verga, MC, Calvani, M, Giordani, P, Matricardi, PM, Ontiveros, N, Cabrera-Chavez, F, Galand, J, Beaudouin, E, Pineau, F, Sakai, S, Matsunaga, K, Teshima, R, Larré, C, Denery, S, Tschirner, S, Trendelenburg, V, Schulz, G, Niggemann, B, Beyer, K, Bouferkas, Y, Belabbas, Y, Saidi, D, Kheroua, O, Mecherfi, KEE, Guendouz, M, Haddi, A, Kaddouri, H, Amaral, L, Pereira, A, Rodrigues, S, Datema, M, Jongejan, L, Clausen, M, Knulst, A, Papadopoulos, N, Kowalski, M, de Blay, F, Zwinderman, A, Hoffman-Sommergruber, K, Ballmer-Weber, B, Fernandez-Rivas, M, Deng, S, Yin, J, Eisenmann, C, Nassiri, M, Reinert, R, van der Valk, JPM, van Wijk, RG, Vergouwe, Y, Steyerberg, EW, Reitsma, M, Wichers, HJ, Savelkoul, HFJ, Vlieg-Boerstra, B, Dubois, AEJ, Carolino, F, Rodolfo, A, Cernadas, J, Roa-Medellín, D, Rodriguez-Fernandez, A, Navarro, J, Albendiz, V, Baeza, ML, Intente-Herrero, S, Mikkelsen, A, Mehlig, K, Lissner, L, Verrill, L, Luccioli, S, van Bilsen, J, Kuper, F, Wolterbeek, A, Rankouhi, TR, Verschuren, L, Cnossen, H, Jeurink, P, Garssen, J, Knippels, L, Garthoff, J, Houben, G, Leeman, W, Eleonore Pettersson, M, Schins, AMM, Koppelman, GH, Kollen, BJ, Zubchenko, S, Kuntz, S, Mérida, P, Álvaro, M, Riggioni, C, Castellanos, JH, Jimenez, R, Cap, M, Drumez, E, Lejeune, S, Thumerelle, C, Mordacq, C, Nève, V, Ricò, S, Varini, M, Nocerino, R, Cosenza, L, Amoroso, A, Di Costanzo, M, Di Scala, C, Bedogni, G, Canani, RB, Turner, PJ, Poza-Guedes, P, González-Pérez, R, Sánchez-Machín, I, Matheu-Delgado, V, Wambre, E, Ballegaard, A-S, Madsen, C, Gregersen, J, Bøgh, KL, Aubert, P, Neunlist, M, Magnan, A, Lozano-Ojalvo, D, Pablos-Tanarro, A, Pérez-Rodríguez, L, Molina, E, López-Fandiño, R, Rekima, A, Macchiaverni, P, Turfkruyer, M, Holvoet, S, Dupuis, L, Baiz, N, Annesi-Maesano, I, Mercenier, A, Nutten, S, Verhasselt, V, Mrakovcic-Sutic, I, Banac, S, Sutic, I, Baricev-Novakovic, Z, Pavisic, V, Muñoz-Cano, R, Jiménez-Rodríguez, T, Corbacho, D, Roca-Ferrer, J, Bartra, J, Bulog, A, Micovic, V, Markiewicz, L, Szymkiewicz, A, Szyc, A, Wróblewska, B, Harvey, BM, Harthoorn, LF, Wesley Burks, A, Rentzos, G, Björk, A-LB, Bengtsson, U, Barber, C, Kalicinsky, C, Breynaert, C, Coorevits, L, Jansen, C, Van Hoeyveld, E, Verbeke, K, Kochuyt, A-M, Schrijvers, R, Deleanu, D, Muntean, A, Konstantakopoulou, M, Pasioti, M, Papadopoulou, A, Iliopoulou, A, Mikos, N, Kompoti, E, de Castro, ED, Bartalomé, B, Ue, KL, Griffiths, E, Till, S, Grimshaw, K, Roberts, G, Selby, A, Butiene, I, Larco, JI, Dubakiene, R, Fiandor, A, Fiocchi, A, Sigurdardottir, S, Sprikkelman, A, Schoemaker, A-F, Xepapadaki, P, Keil, T, Cojocariu, Z, Barbado, BS, Iancu, V, Arroabarren, E, Esarte, MG, Arteaga, M, Andrade, MC, Borges, D, Kalil, J, Bianchi, PG, Agondi, RC, Gupta, RK, Sharma, A, Gupta, K, Das, M, Dwivedi, P, Karseladze, R, Jorjoliani, L, Saginadze, L, Tskhakaia, M, Basello, K, Piuri, G, Speciani, AF, Speciani, MC, Camerotto, C, Zinno, F, Pakholchuk, O, Nedelska, S, Pattini, S, Costantino, MT, Peveri, S, Villalta, D, Savi, E, Costanzi, A, Revyakina, VA, Kiseleva, MA, Kuvshinova, ED, Larkova, IA, Shekhetov, AA, Silva, D, Moreira, A, Plácido, J, van der Kleij, H, van Twuijver, E, Sutorius, R, de Kam, P-J, van Odijk, J, Lindqvist, H, Lustig, E, Jácome, AAA, Aguilar, KLB, Domínguez, MG, Hernández, DAM, Caruso, C, Casale, C, Rapaccini, GL, Romano, A, De Vitis, I, Cocco, RR, Aranda, C, Mallozi, MC, Motta, JF, Moraes, L, Pastorino, A, Rosario, N, Goudouris, E, Porto, A, Wandalsen, NF, Sarinho, E, Sano, F, Solé, D, Pitsios, C, Petrodimopoulou, M, Papadopoulou, E, Passioti, M, Kontogianni, M, Adamia, N, Khaleva, E, del Prado, AP, Du Toit, G, Krzych, E, Samolinska-Zawisza, U, Furmanczyk, K, Tomaszewska, A, Raciborski, F, Lipiec, A, Samel-Kowalik, P, Walkiewicz, A, Borowicz, J, Samolinski, B, Nano, AL, Recto, M, Somoza, ML, López, NB, Alzate, DP, Ruano, FJ, Garcimartín, MI, Haroun, E, de la Torre, MV, Rojas, A, Onieva, ML, Canto, G, Rodrigues, A, Forno, A, Cabral, AJ, Gonçalves, R, Vorozhko, I, Sentsova, T, Chernyak, O, Denisova, S, Ilènko, L, Muhortnich, V, Zimmermann, C, Rohrbach, A, Bakhsh, FR, Boudewijn, K, Oomkes-Pilon, A-M, Van Ginkle, D, Šilar, M, Jeverica, A, Vesel, T, Avčin, T, Korošec, P, van der Valk, J, Berends, I, Arends, N, van Maaren, M, Wichers, H, Emons, J, Dubois, A, de Jong, N, Matsyura, O, Besh, L, Huang, C-H, Jan, T-R, Stiefel, G, Tratt, J, Kirk, K, Arasi, S, Caminiti, L, Crisafulli, G, Fiamingo, C, Fresta, J, Pajno, G, Remington, B, Kruizinga, A, Marty Blom, W, Westerhout, J, Bijlsma, S, Blankestijn, M, Otten, H, Klemans, R, Michelsen-Huisman, AD, van Os-Medendorp, H, Kruizinga, AG, Versluis, A, van Duijn, G, de Zeeuw-Brouwer, HM-L, Castenmiller, JJM, Noteborn, HPJM, Houben, GF, Bravin, K, Luyt, D, Javed, B, Couch, P, Munro, C, Padfield, P, Sperrin, M, Byrne, A, Oosthuizen, L, Kelleher, C, Ward, F, Brosnan, N, King, G, Corbet, E, Guzmán, JAH, García, MB, Asensio, O, Navarrete, LV, Larramona, H, Miró, XD, Pyrz, K, Austin, M, Boloh, Y, Galloway, D, Hernandez, P, Hourihane, JOB, Kenna, F, Majkowska-Wojciechowska, B, Regent, L, Themisb, M, Schnadt, S, Semic-Jusufagic, A, Galvin, AD, Kauppila, T, Kuitunen, M, Kitsioulis, NA, Douladiris, N, Kostoudi, S, Manolaraki, I, Mitsias, D, Manousakis, E, Papadopoulos, NG, Knibb, R, Hammond, J, Cooke, R, Yrjänä, J, Hanni, A-M, Vähäsarja, P, Mustonen, O, Dunder, T, Kulmala, P, Lasa, E, D’Amelio, C, Martínez, S, Joral, A, Gastaminza, G, Goikoetxea, MJ, Candy, DCA, Van Ampting, MTJ, Oude Nijhuis, MM, Butt, AM, Peroni, DG, Fox, AT, Knol, J, Michaelis, LJ, Padua, I, Padrao, P, Moreira, P, Barros, R, Sharif, H, Ahmed, M, Gomaa, N, Mens, J, Smit, K, Timmermans, F, Poredoš, T, Jeverica, AK, Sedmak, M, Benedik, E, Accetto, M, Zupančič, M, Yonamine, G, Soldateli, G, Aquilante, B, Pastorino, AC, de Moraes Beck, CL, Gushken, AK, de Barros Dorna, M, dos Santos, CN, Castro, APM, Al-Qahtani, A, Arnaout, R, Khaliq, AR, Amin, R, Sheikh, F, Alvarez, J, Anda, M, Palacios, M, De Prada, M, Ponce, C, Balbino, B, Sibilano, R, Marichal, T, Gaudenzio, N, Karasuyama, H, Bruhns, P, Tsai, M, Reber, LL, Galli, SJ, Ferreira, AR, Cernadas, JR, del Campo García, A, Fernández, SP, Carrera, NS, Sánchez-Cruz, FB, Lorenzo, JRF, Claus, S, Pföhler, C, Ruëff, F, Treudler, R, Jaume, ME, Madroñero, A, Perez, MTG, Julia, JC, Plovdiv, CH, Gethings, L, Langridge, J, Adel-Patient, K, Bernard, H, Barcievic-Jones, I, Sokolova, R, Yankova, R, Ivanovska, M, Murdjeva, M, Popova, T, Dermendzhiev, S, Karjalainen, M, Lehnigk, U, Brown, D, Locklear, JC, Locklear, J, Maris, I, Hourihane, J, Ornelas, C, Caiado, J, Ferreira, MB, Pereira-Barbosa, M, Puente, Y, Daza, JC, Monteseirin, FJ, Ukleja-Sokolowska, N, Gawronska-Ukleja, E, Zbikowska-Gotz, M, Bartuzi, Z, Sokolowski, L, Adams, A, Mahon, B, English, K, Gourdon-Dubois, N, Sellam, L, Pereira, B, Michaud, E, Messaoudi, K, Evrard, B, Fauquert, J-L, Palomares, F, Gomez, G, Rodriguez, MJ, Galindo, L, Molina, A, Paparo, L, Mennini, M, Aitoro, R, Wawrzeńczyk, A, Przybyszewski, M, Sarıcoban, HE, Ugras, M, Yalvac, Z, Flokstra-de Blok, BMJ, van der Velde, JL, Vereda, A, Ippolito, C, Traversa, A, Adriano, D, Bianchi, DM, Gallina, S, Decastelli, L, Makatsori, M, Miles, A, Devetak, SP, Devetak, I, Tabet, SA, Trandbohus, JF, Winther, P, Malling, H-J, Hansen, KS, Garvey, LH, Wang, C-C, Cheng, Y-H, Tung, C-W, Dietrich, M, Marenholz, I, Kalb, B, Grosche, S, Blümchen, K, Schlags, R, Price, M, Rietz, S, Esparza-Gordillo, J, Lau, S, Lee, Y-A, Almontasheri, A, Bahkali, MA, Elshorbagi, S, Alfhaid, A, Altamimi, M, Madbouly, E, Al-Dhekri, H, Arnaout, RK, Basagaña, M, Miquel, S, Bartolomé, B, Brix, B, Rohwer, S, Brandhoff, S, Berger, A, Suer, W, Weimann, A, Bueno, C, Martín-Pedraza, L, Abián, S, Segundo-Acosta, PS, López-Rodríguez, JC, Barderas, R, Batanero, E, Cuesta-Herranz, J, Villalba, MT, Correia, M, Benito-Garcia, F, Arêde, C, Piedade, S, Morais-Almeida, M, Hindley, J, Yarham, R, Kuklinska-Pijanka, A, Gillick, D, Patient, K, Chapman, MD, Miranda, A, Matos, E, Sokolova, A, Rao, H, Baricevic-Jones, I, Smith, F, Xue, W, Magnusdottir, H, Vidarsdottir, AG, Lund, S, Jensen, AB, Ludviksson, BR, Simon, R, Elfont, R, Bennett, S, Voyksner, R, de Lurdes Torre, M, Yürek, S, Faber, MA, Bastiaensen, A, Mangodt, E, van Gasse, A, Decuyper, I, Sabato, V, Hagendorens, MM, Bridts, CH, De Clerck, LS, Ebo, D, Schwarz, S, Ziegert, M, Albroscheit, S, Schwager, C, Kull, S, Behrends, J, Röckendorf, N, Schocker, F, Frey, A, Homann, A, Becker, W-M, Jappe, U, Zaabat, N, Osscini, S, Agabriel, C, Sterling, B, Carsin, A, Liabeuf, V, Maćków, M, Zbróg, A, Bronkowska, M, Courtois, J, Gadisseur, R, Bertholet, C, Lukas, P, Cavalier, E, Delahaut, P, Quinting, B, Gertmo, MB, Hasseus, ET, Barzylovych, V, Oliveira, J, Ensina, LF, Aranda, CS, Dopazo, L, Lopez, R, Perez, R, Santos-Diez, L, Bilbao, A, Garcia, JM, Núñez, IG, Mármol, MÁA, Villarejo, MJB, Martos, JAB, Vergara, MS, García, JMI, Michalska, A, Sergiejko, G, Zacniewski, R, Ghiordanescu, I-M, Deaconu, C, Popescu, M, Bumbacea, RS, Ibranji, A, Nikolla, E, Loloci, G, Juel-Berg, N, Larsen, LF, Poulsen, LK, Marcelino, J, Prata, R, Costa, AC, Duarte, F, Neto, M, Santos, J, Pestana, LC, Sampaio, D, Minale, P, Dignetti, P, Bignardi, D, Nedelea, I, Popescu, F-D, Vieru, M, Secureanu, F-A, Ganea, CS, Vieira, M, Silva, JPM, Watts, T, Watts, S, Lomikovska, M, Peredelskaya, M, Nenasheva, N, Filipovic, I, Zivkovic, Z, Filipovic, D, Higgs, J, Warner, A, and Jones, C

Published

2017

6. Tamoxifen may cause life-threatening angioedema attacks in patients with hereditary angioedema

Author

Bork, K., primary, Wulff, K., additional, Witzke, G., additional, Rietz, S., additional, and Hardt, J., additional

Published

2016

7. Melanozytäre und epitheliale Tumore an der Hand: Amputation versus Rekonstruktion

Author

Schepler, H, Rietz, S, Scheffer, P, Schepler, H, Rietz, S, and Scheffer, P

Published

2016

8. Perturbation of arabidopsis aminon acide metabolism causes incompatibility with the adapted biotrophic phatogen hyaloperonospora arabidopsidis

Author

Stuttmann, J., Hubberten, Hm, Rietz, S., Kaur, J., Muskett, P., Guerois, R., Bednarek, P., Hoefgen, R., Parker, Je, Système membranaires, photobiologie, stress et détoxication (SMPSD), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS), and Lentz, Celine

Subjects

[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, [SDV.BBM.BM] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology

Published

2011

9. Structure of the central plant immunity signaling node EDS1 in complex with its interaction partner SAG101

Author

Wagner, S., primary, Stuttmann, J., additional, Rietz, S., additional, Guerois, R., additional, Niefind, K., additional, and Parker, J.E., additional

Published

2013

10. Sensoren mit CAN-Anschluß

Author

Rietz, S. and Publica

Subjects

sensor, CAN-Bus, HDL-Kern, Signalverarbeitung

Abstract

Eine wichtige Aufgabe in der heutigen Zeit stellt die Entwicklung von intelligenten Mikrosystemen (Smart Microsystems) dar. In klassischen Feldbussystemen wird die Datenverarbeitung von einem Prozeßrechner übernommen. Für komplexe Prozesse mit einer Vielzahl von Sensor- und Aktordaten folgen daraus eine hohe Busbelastung sowie ein hoher Rechen- und Speicheraufwand des Prozeßrechners. Durch den Einsatz von Smart Microsystems können sowohl der Feldbus als auch der Prozeßrechner entlastet werden.

Published

1997

11. Vermindertes Restmüll-Aufkommen in Großwohnanlagen durch verursachergerechte Gebühren

Author

Kühnle, H., Ahrend, H.-W., Glistau, E., Rietz, S., and Publica

Published

1997

12. Results of a European programme to compare methods used to test orchand sprayers

Author

Miralles, A., Goretta, N., Duserre Bresson, L., Sevilla, F., Miller, P., Walklate, P., Van Zuydan, R., Porskamp, H., Ganzelmeier, H., Rietz, S., Ade, G., Balsari, Paolo, Vannucci, D., and Planas, S.

Published

1996

13. Orchard sprayers : an European program to compare testing methods

Author

Miralles, A., Gorretta, Nathalie, Miller, P.C., Walklate, P., Van Zuydam, R.P., Porskamp, H.A., Ganzelmeier, H., Rietz, S., Ade, G., Balsari, P., Vannucci, D., Planas, S., Génie des équipements agro-forestiers (UR GEMO), Centre national du machinisme agricole, du génie rural, des eaux et forêts (CEMAGREF), SILSOE RESEARCH INSTITUTE BEDFORD GBR, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Wageningen University and Research [Wageningen] (WUR), BBA BRAUNSCHWEIG DEU, IMAB CADRIANO ITA, IMAT TORINO ITA, ISMA MONTEROTONDO ITA, EMA LLEIDA SPA, and Irstea Publications, Migration

Subjects

[SDE] Environmental Sciences, CEMAGREF, ISO 5682 2, [SDE]Environmental Sciences, ISO 568281

Abstract

The performance of sprayers used to treat orchards, vines and hop crops is a concern for the environment. Soil or effluent pollution due to pesticides can occur. The configuration of the sprayers is thus very important; it must take into account the air and volume of the sprayed pesticides. Measurement methods have been designed to define the sprayers., Le résultat des pulvérisateurs utilisés pour traiter des vergers, des vignes et des cultures de houblon constitue un sujet de préoccupation au niveau de l'environnement. La contamination du sol ou des effluents par les pesticides peut se produire. La configuration des machines est donc très importante ; elle doit tenir compte de l'air et du volume de pesticides diffusé. Des méthodes de mesure ont été mises au point pour définir l'instrumentation.

Published

1994

14. Résultats d'un programme européen pour la comparaison des méthodes de test des pulvérisateurs pour vergers

Author

Miralles, A., Gorretta, N., Dusserre-Bresson, L., Sevilla, F., Miller, P.H.C., Walklate, P., van Zuydam, R.P., Porskamp, H.A.J., Ganzelmeier, H., Rietz, S., Ade, G., Balsari, P., Vannucci, D., Planas, S., Irstea Publications, Migration, Génie des équipements agro-forestiers (UR GEMO), Centre national du machinisme agricole, du génie rural, des eaux et forêts (CEMAGREF), SILSOE RESEARCH INSTITUTE SILSOE GBR, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Wageningen University and Research [Wageningen] (WUR), BBA BRAUNSCHWEIG DEU, UNIVERSITY OF BOLOGNA ITA, UNIVERSITY OF TOTINO ITA, ISMA ROMA ITA, and GCEMA LLEIDA ESP

Subjects

[SDE] Environmental Sciences, Institute of Agricultural and Environmental Engineering, Instituut voor Mechanisatie, Arbeid en Gebouwen, CEMAGREF, [SDE]Environmental Sciences, Life Science, GEMO

Abstract

A research program was set up with European Institutes to compare the testing methods employed by these laboratories to measure characteristic parameters of the air assisted orchard sprayers. The parameters studied in the frame of this program are : the air flow rate, the air velocity and the liquid distribution. The study showed off the differences and explained if these differences come from the measuring devices or the testing methods., Un programme de recherche a été mis sur pied en collaboration avec les instituts européens pour comparer les méthodes d'essai utilisées par ces laboratoires afin de mesurer les paramètres caractéristiques des pulvérisateurs pneumatiques utilisés dans les vergers. Les paramètres étudiés dans le cadre de ce programme sont : le débit d'air, la vitesse de l'air et la répartition du liquide. L'étude a permis de mettre en évidence certaines différences et d'expliquer si ces différences étaient dues aux appareils de mesure ou aux méthodes d'essai.

Published

1994

15. Spezifische Therapiemaßnahmen in der Behandlung des Wachkomas und ihr effizienter Einsatz

Author

Rietz, S., primary and Hagel, K., additional

Published

2000

16. Performance of Electronic Controls for Field Sprayers

Author

Rietz, S., primary, Pályi, B., additional, Ganzelmeier, H., additional, and László, A., additional

Published

1997

17. Multisensor signal processing with CAN bus interface

Author

Rietz, S., primary, Schneider, B., additional, Bender, S., additional, Fischer, W.-J., additional, Grätz, H., additional, and Heinig, A., additional

Published

1997

18. Plant protection equipment in glasshouses

Author

WYGODA, H.-J., primary and RIETZ, S., additional

Published

1996

19. Results of a European programme to compare methods used to test orchard sprayers1

Author

MIRALLES, A., primary, GORRETTA, N., additional, DUSSERRE‐BRESSON, L., additional, SEVILA, F., additional, MILLER, P. C. H., additional, WALKLATE, P., additional, VAN ZUYDAM, R. P., additional, PORSKAMP, H. A. J., additional, GANZELMEIER, H., additional, RIETZ, S., additional, ADET, G., additional, BALSARI, P., additional, VANNUCCI, D., additional, and PLANAS, S., additional

Published

1996

20. Test results of electronic control units for field sprayers and future trends

Author

JAHNS, G., primary and RIETZ, S., additional

Published

1996

21. Tamoxifen may cause life-threatening angioedema attacks in patients with hereditary angioedema.

Author

Bork, K., Wulff, K., Witzke, G., Rietz, S., and Hardt, J.

Subjects

TAMOXIFEN, ANTINEOPLASTIC agents, ABDOMINAL diseases

Abstract

The article presents case studies of two patients one with hereditary angioedema (HAE) and normal C1-INH (C1 inhibitor) and other patient with HAE-C1-INH with a life-threatening exacerbation due to tamoxifen. It mentions that first patient had a family history negative for angioedema while second patient had numerous skin swellings and abdominal attack. It further states that tamoxifen drug may cause angioedema attacks in patients with hereditary angioedema.

Published

2017

22. Intraindividual comparison of pharmacokinetic parameters of d-norgestrel, lynestrenol and cyproterone acetate in 6 women

Author

Hümpel, M., primary, Wendt, H., additional, Dogs, G., additional, Weiβ, Chr., additional, Rietz, S., additional, and Speck, U., additional

Published

1977

23. Combining artificial intelligence and human expertise for more accurate dermoscopic melanoma diagnosis: A 2-session retrospective reader study.

Author

Giulini M, Goldust M, Grabbe S, Ludwigs C, Seliger D, Karagaiah P, Schepler H, Butsch F, Weidenthaler-Barth B, and Rietz S

Subjects

Humans, Retrospective Studies, Clinical Competence, Melanoma diagnosis, Melanoma pathology, Dermoscopy, Skin Neoplasms pathology, Skin Neoplasms diagnosis, Artificial Intelligence

Abstract

Competing Interests: Conflicts of interest None disclosed.

Published

2024

24. QTL mapping and transcriptome analysis identify novel QTLs and candidate genes in Brassica villosa for quantitative resistance against Sclerotinia sclerotiorum.

Author

Bergmann T, Menkhaus J, Ye W, Schemmel M, Hasler M, Rietz S, Leckband G, and Cai D

Subjects

Chromosome Mapping, Gene Expression Profiling, Plant Diseases microbiology, Brassica genetics, Brassica napus genetics, Brassica napus microbiology, Ascomycota physiology

Abstract

Key Message: Novel QTLs and candidate genes for Sclerotinia-resistance were identified in B. villosa, a wild Brassica species, which represents a new genetic source for improving oilseed rape resistance to SSR. Sclerotinia stem rot (SSR), caused by Sclerotinia sclerotiorum, is one of the most destructive diseases in oilseed rape growing regions. To date, there is no effective genetic resistance against S. sclerotiorum in the B. napus germplasm and knowledge of the molecular plant-fungal interaction is also limited. To identify new resistance resources, we screened a set of wild Brassica species and identified B. villosa (BRA1896) with a high level of Sclerotinia-resistance. Two segregating F 2 populations for Sclerotinia-resistance, generated by interspecific crosses between the resistant B. villosa (BRA1896) and the wild susceptible B. oleracea (BRA1909) were assessed for Sclerotinia-resistance. Genetic mapping using a 15-k Illumina Infinium SNP-array resulted in a high-density genetic map containing 1,118 SNP markers and spanning a total genetic length of 792.2 cM. QTL analysis revealed seven QTLs explaining 3.8% to 16.5% of phenotypic variance. Intriguingly, RNAseq-based transcriptome analysis identified genes and pathways specific to B. villosa, of which a cluster of five genes encoding putative receptor-like kinases (RLKs) and two pathogenesis-related (PR) proteins are co-localized within a QTL on chromosome C07. Furthermore, transcriptomic analysis revealed enhanced ethylene (ET)-activated signaling in the resistant B. villosa, which is associated with a stronger plant immune response, depressed cell death, and enhanced phytoalexin biosynthesis compared to the susceptible B. oleracea. Our data demonstrates that B. villosa represents a novel and unique genetic source for improving oilseed rape resistance against SSR., (© 2023. The Author(s).)

Published

2023

25. The Brassica napus seed microbiota is cultivar-specific and transmitted via paternal breeding lines.

Author

Wassermann B, Abdelfattah A, Wicaksono WA, Kusstatscher P, Müller H, Cernava T, Goertz S, Rietz S, Abbadi A, and Berg G

Subjects

Bacteria genetics, Bayes Theorem, Disease Resistance, Endophytes genetics, Plant Breeding, Seeds microbiology, Brassica napus, Microbiota

Abstract

Seed microbiota influence germination and plant health and have the potential to improve crop performance, but the factors that determine their structure and functions are still not fully understood. Here, we analysed the impact of plant-related and external factors on seed endophyte communities of 10 different oilseed rape (Brassica napus L.) cultivars from 26 field sites across Europe. All seed lots harboured a high abundance and diversity of endophytes, which were dominated by six genera: Ralstonia, Serratia, Enterobacter, Pseudomonas, Pantoea, and Sphingomonas. The cultivar was the main factor explaining the variations in bacterial diversity, abundance and composition. In addition, the latter was significantly influenced by diverse biotic and abiotic factors, for example host germination rates and disease resistance against Plasmodiophora brassicae. A set of bacterial biomarkers was identified to discriminate between characteristics of the seeds, for example Sphingomonas for improved germination and Brevundimonas for disease resistance. Application of a Bayesian community approach suggested vertical transmission of seed endophytes, where the paternal parent plays a major role and might even determine the germination performance of the offspring. This study contributes to the understanding of seed microbiome assembly and underlines the potential of the microbiome to be implemented in crop breeding and biocontrol programmes., (© 2022 The Authors. Microbial Biotechnology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2022

26. Synergistic Effects of a Root-Endophytic Trichoderma Fungus and Bacillus on Early Root Colonization and Defense Activation Against Verticillium longisporum in Rapeseed.

Author

Hafiz FB, Moradtalab N, Goertz S, Rietz S, Dietel K, Rozhon W, Humbeck K, Geistlinger J, Neumann G, and Schellenberg I

Subjects

Plant Diseases microbiology, Plant Roots microbiology, Arabidopsis microbiology, Ascomycota, Bacillus, Brassica napus genetics, Brassica rapa, Trichoderma physiology, Verticillium physiology

Abstract

Rhizosphere-competent microbes often interact with plant roots and exhibit beneficial effects on plant performance. Numerous bacterial and fungal isolates are able to prime host plants for fast adaptive responses against pathogen attacks. Combined action of fungi and bacteria may lead to synergisms exceeding effects of single strains. Individual beneficial fungi and bacteria have been extensively studied in Arabidopsis thaliana , but little is known about their concerted actions in the Brassicaceae. Here, an in-vitro system with oilseed rape ( Brassica napus ) was established. Roots of two different cultivars were inoculated with well-characterized fungal ( Trichoderma harzianum OMG16) and bacterial ( Bacillus velezensis FZB42) isolates alone or in combination. Microscopic analysis confirmed that OMG16 hyphae entered root hairs through root hair tips and formed distinct intracellular structures. Quantitative PCR revealed that root colonization of OMG16 increased up to 10-fold in the presence of FZB42. Relative transcript levels of the ethylene- and jasmonic acid-responsive genes PDF1.2 , ERF2 , and AOC3 were recorded in leaves by quantitative reverse transcription PCR to measure induced systemic resistance in tissues distant from the roots. Combined action of OMG16 and FZB42 induced transcript abundances more efficiently than single inoculation. Importantly, microbial priming reduced Verticillium longisporum root infection in rapeseed by approximately 100-fold compared with nonprimed plants. Priming also led to faster and stronger systemic responses of the defense genes PDF1.2 , ERF2 , AOC3 , and VSP2 .[Formula: see text] Copyright © 2022 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published

2022

27. Oxidative Stress Differentially Influences the Survival and Metabolism of Cells in the Melanoma Microenvironment.

Author

Trzeciak ER, Zimmer N, Gehringer I, Stein L, Graefen B, Schupp J, Stephan A, Rietz S, Prantner M, and Tuettenberg A

Subjects

Cell Line, Tumor, Endothelial Cells metabolism, Humans, Oxidative Stress, Tumor Microenvironment, Melanoma pathology, Plasma Gases

Abstract

The cellular composition of the tumor microenvironment, including tumor, immune, stromal, and endothelial cells, significantly influences responses to cancer therapies. In this study, we analyzed the impact of oxidative stress, induced by cold atmospheric plasma (CAP), on tumor cells, T cells, and macrophages, which comprise part of the melanoma microenvironment. To accomplish this, cells were grown in different in vitro cell culture models and were treated with varying amounts of CAP. Subsequent alterations in viability, proliferation, and phenotype were analyzed via flow cytometry and metabolic alterations by Seahorse Cell Mito Stress Tests. It was found that cells generally exhibited reduced viability and proliferation, stemming from CAP induced G2/M cell cycle arrest and subsequent apoptosis, as well as increased mitochondrial stress following CAP treatment. Overall, sensitivity to CAP treatment was found to be cell type dependent with T cells being the most affected. Interestingly, CAP influenced the polarization of M0 macrophages to a "M0/M2-like" phenotype, and M1 macrophages were found to display a heightened sensitivity to CAP induced mitochondrial stress. CAP also inhibited the growth and killed melanoma cells in 2D and 3D in vitro cell culture models in a dose-dependent manner. Improving our understanding of oxidative stress, mechanisms to manipulate it, and its implications for the tumor microenvironment may help in the discovery of new therapeutic targets.

Published

2022

28. Influence of Elevated Temperatures on Resistance Against Phoma Stem Canker in Oilseed Rape.

Author

Noel K, Qi A, Gajula LH, Padley C, Rietz S, Huang YJ, Fitt BDL, and Stotz HU

Abstract

Cultivar resistance is an important tool in controlling pathogen-related diseases in agricultural crops. As temperatures increase due to global warming, temperature-resilient disease resistance will play an important role in crop protection. However, the mechanisms behind the temperature-sensitivity of the disease resistance response are poorly understood in crop species and little is known about the effect of elevated temperatures on quantitative disease resistance. Here, we investigated the effect of temperature increase on the quantitative resistance of Brassica napus against Leptosphaeria maculans . Field experiments and controlled environment inoculation assays were done to determine the influence of temperature on R gene-mediated and quantitative resistance against L. maculans ; of specific interest was the impact of high summer temperatures on the severity of phoma stem canker. Field experiments were run for three consecutive growing seasons at various sites in England and France using twelve winter oilseed rape breeding lines or cultivars with or without R genes and/or quantitative resistance. Stem inoculation assays were done under controlled environment conditions with four cultivars/breeding lines, using avirulent and virulent L. maculans isolates, to determine if an increase in ambient temperature reduces the efficacy of the resistance. High maximum June temperature was found to be related to phoma stem canker severity. No temperature effect on stem canker severity was found for the cultivar ES Astrid (with only quantitative resistance with no known R genes). However, in the controlled environmental conditions, the cultivar ES Astrid had significantly smaller amounts of necrotic tissue at 20°C than at 25°C. This suggests that, under a sustained temperature of 25°C, the efficacy of quantitative resistance is reduced. Findings from this study show that temperature-resilient quantitative resistance is currently available in some oilseed cultivars and that efficacy of quantitative resistance is maintained at increased temperature but not when these elevated temperatures are sustained for a long period., Competing Interests: KN and CP are employed by LS Plant Breeding Ltd. SR is employed by NPZ Innovation GmbH. The authors declare that this study received funding from LS Plant Breeding. The funder had the following involvement in the study: Contribution of breeding lines and field experiments. The funder was not involved in the study design, collection, analysis, interpretation of data, the writing of this article or the decision to submit it for publication. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Noel, Qi, Gajula, Padley, Rietz, Huang, Fitt and Stotz.)

Published

2022

29. Effects of Gegen Qinlian Decoction combined with Chinese herbal hot package on the expression of PCT, CRP and IL-6 in patients with acute gastroenteritis.

Author

Zhang W, Yang M, Rietz S, and Li P

Subjects

Abdominal Pain, China, Humans, Interleukin-6, Drugs, Chinese Herbal pharmacology, Drugs, Chinese Herbal therapeutic use, Gastroenteritis drug therapy

Abstract

This study was carried out to investigate the clinical efficacy of Gegen Qinlian Decoction combined with a Chinese herbal hot package in the treatment of acute gastroenteritis (AGE), and to analyze the effects on serum PCT, CRP and IL-6 levels. For this purpose, 100 patients with AGE admitted to the hospital from January 2019 to January 2022 were selected for the study and randomly divided into observation and control groups, with 50 cases in each group. Patients in the control group were given conventional Western medical treatment, while patients in the observation group were treated with Gegen Qinlian Decoction combined with a Chinese herbal hot package on this basis. The clinical efficacy, symptom relief time, main symptom scores and serum PCT, CRP and IL-6 levels before and after treatment were compared between the two groups. Results showed that the total effective rate of patients in the observation group was significantly higher than that in the control group (P<0.05). After treatment, the disappearance time of diarrhea, abdominal pain, fever and vomiting was significantly shorter in the observation group than in the control group (P<0.05). After treatment, the stool properties, number of stools and abdominal pain symptom scores of patients in both groups were lower than those before treatment, and the symptom scores of patients in the observation group were lower than those in the control group (P<0.05). The PCT, CRP and IL-6 levels of patients in both groups were significantly lower after treatment than before treatment, and the PCT, CRP and IL-6 levels of patients in the observation group were significantly lower than those in the control group (P<0.05). It was concluded that the clinical efficacy of Gegen Qinlian Decoction combined with Chinese herbal hot package in the treatment of AGE is remarkable, which can effectively improve the clinical symptoms and reduce the inflammatory reaction of patients and is worthy of clinical promotion.

Published

2022

30. Loss of function of CRT1a (calreticulin) reduces plant susceptibility to Verticillium longisporum in both Arabidopsis thaliana and oilseed rape (Brassica napus).

Author

Pröbsting M, Schenke D, Hossain R, Häder C, Thurau T, Wighardt L, Schuster A, Zhou Z, Ye W, Rietz S, Leckband G, and Cai D

Subjects

Calreticulin, Plant Diseases genetics, Arabidopsis genetics, Brassica napus genetics, Verticillium

Abstract

Brassica napus is highly susceptible towards Verticillium longisporum (Vl43) with no effective genetic resistance. It is believed that the fungus reprogrammes plant physiological processes by up-regulation of so-called susceptibility factors to establish a compatible interaction. By transcriptome analysis, we identified genes, which were activated/up-regulated in rapeseed after Vl43 infection. To test whether one of these genes is functionally involved in the infection process and loss of function would lead to decreased susceptibility, we firstly challenged KO lines of corresponding Arabidopsis orthologs with Vl43 and compared them with wild-type plants. Here, we report that the KO of AtCRT1a results in drastically reduced susceptibility of plants to Vl43. To prove crt1a mutation also decreases susceptibility in B. napus, we identified 10 mutations in a TILLING population. Three T3 mutants displayed increased resistance as compared to the wild type. To validate the results, we generated CRISPR/Cas-induced BnCRT1a mutants, challenged T2 plants with Vl43 and observed an overall reduced susceptibility in 3 out of 4 independent lines. Genotyping by allele-specific sequencing suggests a major effect of mutations in the CRT1a A-genome copy, while the C-genome copy appears to have no significant impact on plant susceptibility when challenged with Vl43. As revealed by transcript analysis, the loss of function of CRT1a results in activation of the ethylene signalling pathway, which may contribute to reduced susceptibility. Furthermore, this study demonstrates a novel strategy with great potential to improve plant disease resistance., (© 2020 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.)

Published

2020

31. [The "light" version of a perforator flap: significance of the Keystone Designed Perforator Flap Concept (KDPFC) in the lower extremity].

Author

Schepler H, Sauerbier M, Grabbe S, and Rietz S

Subjects

Humans, Retrospective Studies, Treatment Outcome, Lower Extremity surgery, Perforator Flap, Plastic Surgery Procedures, Soft Tissue Injuries

Abstract

Introduction: Since the KDPFC was first described by Behan et al. in 2003, there have been a number of publications about this technique with case series between 1 and 300 flaps, and some have described further modifications of the design of the flap. The flap design resembles the keystone of a Roman arch and is based on the angiosome concept. The flap is a perforator flap, but does not require microsurgical dissection or preparation of the perforators. The technique is efficient and relatively simple to perform. With a few exceptions, it can be performed anywhere on the body. Although there are a large number of publications, not much data has been published on the complications, limitations and disadvantages of the technique., Methods: This is a retrospective analysis of the outcomes of 35 patients who underwent keystone flap reconstruction for soft tissue defects over 36 months. The flap design followed the original KDPFC description. Flap selection was based on the requirements of each defect., Results: Thirty-six flap procedures were performed on 35 patients. The mean defect size was 21 cm 2 (range 2-100 cm 2 ). Delayed wound healing occurred in 12 patients and flap loss was observed in 4 patients. One patient required further surgical revision. The wounds of the remaining patients healed by secondary intention. Four out of 10 patients who were on anticoagulants had delayed wound healing, compared with 12 out of 25 who were not on anticoagulants. Seven of the 16 patients with delayed wound healing, including 3 patients with flap loss, had defects reconstructed on the very distal lower leg and foot., Discussion: The KDPFC is a valuable addition to the reconstructive armamentarium. Although delayed wound healing has been observed in some cases, this flap concept can replace other local or regional flaps, also in more complex situations. Care must be taken in patient selection and, in particular, in large defects and difficult topographical areas on the distal lower leg. In these situations, other reconstructive options may be more appropriate., Competing Interests: Die Autoren geben an, dass kein Interessenkonflikt besteht., (© Georg Thieme Verlag KG Stuttgart · New York.)

Published

2019

32. Lymphedema: An early sign of rodent ulcer metastasis leads to timely intervention.

Author

Mann C, Rietz S, Amedee R, and Schepler H

Abstract

Basal cell carcinoma has a potential for early and late metastasis. Depending on the location of the primary site, the relevant lymphatic drainage routes have to be monitored. Regional lymph edema may be a first indicator for metastasizing disease., Competing Interests: None declared.

Published

2019

33. Huge pedunculated tumor of the thigh.

Author

Schepler H, Rietz S, von Stebut E, and Weidenthaler-Barth B

Subjects

Diagnosis, Differential, Factor XIIIa analysis, Fibroma pathology, Fibroma surgery, Humans, Lipoma pathology, Lipoma surgery, Male, Middle Aged, Skin pathology, Skin Neoplasms pathology, Skin Neoplasms surgery, Buttocks surgery, Fibroma diagnosis, Lipoma diagnosis, Skin Neoplasms diagnosis

Published

2018

34. Riesiger gestielter Knoten des Oberschenkels.

Author

Schepler H, Rietz S, von Stebut E, and Weidenthaler-Barth B

Published

2018

35. Zwei Brüder mit Papillomatosis confluens et reticularis.

Author

Rietz S, Grabbe S, and von Stebut E

Published

2016

36. Two brothers with confluent and reticulated papillomatosis.

Author

Rietz S, Grabbe S, and von Stebut E

Published

2016

37. Mutants of phospholipase A (pPLA-I) have a red light and auxin phenotype.

Author

Effendi Y, Radatz K, Labusch C, Rietz S, Wimalasekera R, Helizon H, Zeidler M, and Scherer GF

Subjects

Arabidopsis drug effects, Arabidopsis radiation effects, Arabidopsis Proteins metabolism, Carboxylic Ester Hydrolases metabolism, Exons genetics, Gene Expression Regulation, Plant drug effects, Gravitropism drug effects, Hypocotyl drug effects, Hypocotyl physiology, Hypocotyl radiation effects, Introns genetics, Phenotype, Phospholipases A metabolism, Phototropism drug effects, Phytochrome B metabolism, Plant Roots drug effects, Plant Roots physiology, Protein Transport drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Subcellular Fractions drug effects, Subcellular Fractions metabolism, Arabidopsis enzymology, Arabidopsis genetics, Arabidopsis Proteins genetics, Carboxylic Ester Hydrolases genetics, Indoleacetic Acids pharmacology, Light, Mutation genetics, Phospholipases A genetics

Abstract

pPLA-I is the evolutionarily oldest patatin-related phospholipase A (pPLA) in plants, which have previously been implicated to function in auxin and defence signalling. Molecular and physiological analysis of two allelic null mutants for pPLA-I [ppla-I-1 in Wassilewskija (Ws) and ppla-I-3 in Columbia (Col) ] revealed pPLA-I functions in auxin and light signalling. The enzyme is localized in the cytosol and to membranes. After auxin application expression of early auxin-induced genes is significantly slower compared with wild type and both alleles show a slower gravitropic response of hypocotyls, indicating compromised auxin signalling. Additionally, phytochrome-modulated responses like abrogation of gravitropism, enhancement of phototropism and growth in far red-enriched light are decreased in both alleles. While early flowering, root coils and delayed phototropism are only observed in the Ws mutant devoid of phyD, the light-related phenotypes observed in both alleles point to an involvement of pPLA-I in phytochrome signalling., (© 2014 John Wiley & Sons Ltd.)

Published

2014

38. Structural basis for signaling by exclusive EDS1 heteromeric complexes with SAG101 or PAD4 in plant innate immunity.

Author

Wagner S, Stuttmann J, Rietz S, Guerois R, Brunstein E, Bautor J, Niefind K, and Parker JE

Subjects

Arabidopsis physiology, Arabidopsis Proteins chemistry, Arabidopsis Proteins genetics, Carboxylic Ester Hydrolases chemistry, Carboxylic Ester Hydrolases genetics, Crystallography, X-Ray, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, Models, Molecular, Protein Conformation, Arabidopsis immunology, Arabidopsis Proteins metabolism, Carboxylic Ester Hydrolases metabolism, DNA-Binding Proteins metabolism, Immunity, Innate, Protein Multimerization, Signal Transduction

Abstract

Biotrophic plant pathogens encounter a postinfection basal resistance layer controlled by the lipase-like protein enhanced disease susceptibility 1 (EDS1) and its sequence-related interaction partners, senescence-associated gene 101 (SAG101) and phytoalexin deficient 4 (PAD4). Maintainance of separate EDS1 family member clades through angiosperm evolution suggests distinct functional attributes. We report the Arabidopsis EDS1-SAG101 heterodimer crystal structure with juxtaposed N-terminal α/β hydrolase and C-terminal α-helical EP domains aligned via a large conserved interface. Mutational analysis of the EDS1-SAG101 heterodimer and a derived EDS1-PAD4 structural model shows that EDS1 signals within mutually exclusive heterocomplexes. Although there is evolutionary conservation of α/β hydrolase topology in all three proteins, a noncatalytic resistance mechanism is indicated. Instead, the respective N-terminal domains appear to facilitate binding of the essential EP domains to create novel interaction surfaces on the heterodimer. Transitions between distinct functional EDS1 heterodimers might explain the central importance and versatility of this regulatory node in plant immunity., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

39. Screening for distress in routine oncological care-a survey in 520 melanoma patients.

Author

Loquai C, Scheurich V, Syring N, Schmidtmann I, Rietz S, Werner A, Grabbe S, and Beutel ME

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Health Care Surveys, Humans, Male, Mass Screening, Melanoma pathology, Middle Aged, Outpatients, Risk Factors, Stress, Psychological etiology, Surveys and Questionnaires, Young Adult, Melanoma psychology, Stress, Psychological diagnosis, Stress, Psychological epidemiology

Abstract

Introduction: Despite the increasing incidence of melanoma little is known about patients' emotional distress associated with this disease. Supplemented by the problem list (PL), the distress thermometer (DT) is a recommended screening instrument to measure psychosocial distress in cancer patients. Our objective was to explore the acceptance and the feasibility of the DT and PL as a concise screening tool in an ambulatory setting for routine care and to elucidate determinants of distress in melanoma patients with regard to sociodemographic and clinical variables., Methods: Consecutive melanoma outpatients were asked to complete the DT with the PL prior to their scheduled consultation. Demographic and clinical data were obtained from the patients' charts. Clinical data included melanoma stage, time since diagnosis, previous treatment, current treatment, and other cancer disease., Results: Out of 734 patients recruited into the study, 520 patients (71%) completed both the DT and the PL. Forty-seven percent met the ≥5 cut-off score for distress. Younger and employed patients reported higher distress than older and retired patients. A cut-off score of ≥5 was closely associated with self-reported emotional sources of distress, with practical problems, especially at work, family problems (dealing with the partner), and physical problems like pain, appearance, getting around, and nausea. Apart from higher distress under current systemic treatment, no associations were found between distress and clinical data., Conclusion: The DT together with the PL seems to be an economically reasonable screening tool to measure psychosocial distress in melanoma patients. In particular, younger melanoma patients who are currently employed are prone to experience distress at some point after diagnosis, but there appears to be almost no association between clinical data and the extent of distress. To characterize the impact of distress on disease outcome and quality of life in melanoma patients, further research is needed.

Published

2013

40. Members of the germin-like protein family in Brassica napus are candidates for the initiation of an oxidative burst that impedes pathogenesis of Sclerotinia sclerotiorum.

Author

Rietz S, Bernsdorff FE, and Cai D

Subjects

Amino Acid Sequence, Brassica napus drug effects, Brassica napus immunology, Brassica napus microbiology, Disease Resistance, Gene Expression Profiling, Glycoproteins metabolism, Host-Pathogen Interactions, Hydrogen Peroxide metabolism, Hydrogen Peroxide pharmacology, Molecular Sequence Data, Multigene Family, Phylogeny, Plant Diseases microbiology, Plant Leaves drug effects, Plant Leaves genetics, Plant Leaves immunology, Plant Leaves microbiology, Plant Proteins genetics, Plant Proteins metabolism, Plants, Genetically Modified, Recombinant Fusion Proteins, Respiratory Burst, Sequence Alignment, Superoxide Dismutase drug effects, Superoxide Dismutase metabolism, Nicotiana genetics, Nicotiana metabolism, Up-Regulation, Ascomycota physiology, Brassica napus genetics, Gene Expression Regulation, Plant genetics, Glycoproteins genetics, Plant Diseases immunology

Abstract

Germin-like proteins (GLPs) are defined by their sequence homology to germins from barley and are present ubiquitously in plants. Analyses of corresponding genes have revealed diverse functions of GLPs in plant development and biotic and abiotic stresses. This study describes the identification of a family of 14 germin-like genes from Brassica napus (BnGLP) designated BnGLP1-BnGLP14 and investigated potential functions of BnGLPs in plant defense against the necrotrophic fungus Sclerotinia sclerotiorum. Sequence alignment and phylogenetic analyses classify the 14 BnGLPs into four groups, which were clearly distinguished from known germin oxalic acid oxidases. Transcriptional responses of the BnGLP genes to S. sclerotiorum infection was determined by comparing cultivars of susceptible B. napus 'Falcon' and partially resistant B. napus 'Zhongshuang 9'. Of the 14 BnGLP genes tested, BnGLP3 was transcriptionally upregulated in both B. napus cultivars at 6h after S. sclerotiorum infection, while upregulation of BnGLP12 was restricted to resistant B. napus 'Zhongshuang 9'. Biochemical analysis of five representative BnGLP members identified a H(2)O(2)-generating superoxide dismutase activity only for higher molecular weight complexes of BnGLP3 and BnGLP12. By analogy, H(2)O(2) formation at infected leaf sites increased after 6h, with even higher H(2)O(2) production in B. napus 'Zhongshuang 9' compared with B. napus 'Falcon'. Conversely, exogenous application of H(2)O(2) significantly reduced the susceptibility of B. napus 'Falcon'. These data suggest that early induction of BnGLP3 and BnGLP12 participates in an oxidative burst that may play a pivotal role in defence of B. napus against S. sclerotiorum.

Published

2012

41. Perturbation of Arabidopsis amino acid metabolism causes incompatibility with the adapted biotrophic pathogen Hyaloperonospora arabidopsidis.

Author

Stuttmann J, Hubberten HM, Rietz S, Kaur J, Muskett P, Guerois R, Bednarek P, Hoefgen R, and Parker JE

Subjects

Amino Acid Sequence, Arabidopsis anatomy & histology, Arabidopsis genetics, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Aspartate Kinase genetics, Aspartate Kinase metabolism, Carrier Proteins genetics, Carrier Proteins metabolism, Disease Resistance genetics, Homeostasis, Hydro-Lyases genetics, Hydro-Lyases metabolism, Intracellular Signaling Peptides and Proteins, Models, Molecular, Molecular Sequence Data, Mutation, Plant Leaves cytology, Plant Leaves metabolism, Plant Leaves microbiology, Protein Conformation, Sequence Alignment, Amino Acids metabolism, Arabidopsis metabolism, Arabidopsis microbiology, Host-Pathogen Interactions physiology, Oomycetes metabolism, Oomycetes pathogenicity, Plant Diseases microbiology

Abstract

Reliance of biotrophic pathogens on living plant tissues to propagate implies strong interdependence between host metabolism and nutrient uptake by the pathogen. However, factors determining host suitability and establishment of infection are largely unknown. We describe a loss-of-inhibition allele of ASPARTATE KINASE2 and a loss-of-function allele of DIHYDRODIPICOLINATE SYNTHASE2 identified in a screen for Arabidopsis thaliana mutants with increased resistance to the obligate biotrophic oomycete Hyaloperonospora arabidopsidis (Hpa). Through different molecular mechanisms, these mutations perturb amino acid homeostasis leading to overaccumulation of the Asp-derived amino acids Met, Thr, and Ile. Although detrimental for the plant, the mutations do not cause defense activation, and both mutants retain full susceptibility to the adapted obligate biotrophic fungus Golovinomyces orontii (Go). Chemical treatments mimicking the mutants' metabolic state identified Thr as the amino acid suppressing Hpa but not Go colonization. We conclude that perturbations in amino acid homeostasis render the mutant plants unsuitable as an infection substrate for Hpa. This may be explained by deployment of the same amino acid biosynthetic pathways by oomycetes and plants. Our data show that the plant host metabolic state can, in specific ways, influence the ability of adapted biotrophic strains to cause disease.

Published

2011

42. Different roles of Enhanced Disease Susceptibility1 (EDS1) bound to and dissociated from Phytoalexin Deficient4 (PAD4) in Arabidopsis immunity.

Author

Rietz S, Stamm A, Malonek S, Wagner S, Becker D, Medina-Escobar N, Corina Vlot A, Feys BJ, Niefind K, and Parker JE

Subjects

Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins chemistry, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Carboxylic Ester Hydrolases chemistry, Carboxylic Ester Hydrolases genetics, Carboxylic Ester Hydrolases metabolism, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, Immunity, Innate genetics, Mutation, Plants, Genetically Modified immunology, Two-Hybrid System Techniques, Arabidopsis immunology, Arabidopsis Proteins physiology, Carboxylic Ester Hydrolases physiology, DNA-Binding Proteins physiology

Abstract

• Enhanced Disease Susceptibility1 (EDS1) is an important regulator of plant basal and receptor-triggered immunity. Arabidopsis EDS1 interacts with two related proteins, Phytoalexin Deficient4 (PAD4) and Senescence Associated Gene101 (SAG101), whose combined activities are essential for defense signaling. The different sizes and intracellular distributions of EDS1-PAD4 and EDS1-SAG101 complexes in Arabidopsis leaf tissues suggest that they perform nonredundant functions. • The nature and biological relevance of EDS1 interactions with PAD4 and SAG101 were explored using yeast three-hybrid assays, in vitro analysis of recombinant proteins purified from Escherichia coli, and characterization of Arabidopsis transgenic plants expressing an eds1 mutant (eds1(L262P) ) protein which no longer binds PAD4 but retains interaction with SAG101. • EDS1 forms molecularly distinct complexes with PAD4 or SAG101 without additional plant factors. Loss of interaction with EDS1 reduces PAD4 post-transcriptional accumulation, consistent with the EDS1 physical association stabilizing PAD4. The dissociated forms of EDS1 and PAD4 are fully competent in signaling receptor-triggered localized cell death at infection foci. By contrast, an EDS1-PAD4 complex is necessary for basal resistance involving transcriptional up-regulation of PAD4 itself and mobilization of salicylic acid defenses. • Different EDS1 and PAD4 molecular configurations have distinct and separable functions in the plant innate immune response., (© Max Planck Society (2011). New Phytologist © 2011 New Phytologist Trust.)

Published

2011

43. Crystallization and preliminary crystallographic analysis of Arabidopsis thaliana EDS1, a key component of plant immunity, in complex with its signalling partner SAG101.

Author

Wagner S, Rietz S, Parker JE, and Niefind K

Subjects

Cell Death genetics, Cell Death immunology, Crystallization, Crystallography, X-Ray, Diffusion, Hot Temperature, Immunity, Innate, Recombinant Proteins immunology, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Signal Transduction genetics, Signal Transduction immunology, Arabidopsis Proteins chemistry, Carboxylic Ester Hydrolases chemistry, DNA-Binding Proteins chemistry, Plant Immunity, Signal Transduction physiology

Abstract

In plants, the nucleocytoplasmic protein EDS1 (Enhanced disease susceptibility1) is an important regulator of innate immunity, coordinating host-cell defence and cell-death programs in response to pathogen attack. Arabidopsis thaliana EDS1 stabilizes and signals together with its partners PAD4 (Phytoalexin deficient4) and SAG101 (Senescence-associated gene101). Characterization of EDS1 molecular configurations in vitro and in vivo points to the formation of structurally and spatially distinct EDS1 homomeric dimers and EDS1 heteromeric complexes with either PAD4 or SAG101 as necessary components of the immune response. EDS1, PAD4 and SAG101 constitute a plant-specific protein family with a unique `EP' (EDS1-PAD4-specific) domain at their C-termini and an N-terminal domain resembling enzymes with an α/β-hydrolase fold. Here, the expression, purification and crystallization of a functional EDS1 complex formed by EDS1 and SAG101 from Arabidopsis thaliana are reported. The crystals belonged to the orthorhombic space group P2(1)2(1)2(1), with unit-cell parameters a = 101.8, b = 115.9, c = 122.8 Å, and diffracted to 3.5 Å resolution.

Published

2011

44. [Erythematosus plaques and nodules in a 50-year old patient with rheumatoid arthritis. Interstitial granulomatous dermatitis with arthritis].

Author

Rietz S, Möhler T, Bräuninger W, and Steinbrink K

Subjects

Arthritis, Rheumatoid therapy, Dermatitis therapy, Diagnosis, Differential, Granuloma therapy, Humans, Male, Middle Aged, Arthritis, Rheumatoid complications, Arthritis, Rheumatoid diagnosis, Dermatitis complications, Dermatitis diagnosis, Granuloma complications, Granuloma diagnosis

Published

2011

45. The heterozygous abp1/ABP1 insertional mutant has defects in functions requiring polar auxin transport and in regulation of early auxin-regulated genes.

Author

Effendi Y, Rietz S, Fischer U, and Scherer GF

Subjects

Arabidopsis growth & development, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Biological Transport, Genes, Plant drug effects, Gravitropism, Heterozygote, Hypocotyl genetics, Hypocotyl growth & development, Indoleacetic Acids pharmacology, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Models, Biological, Mutagenesis, Insertional, Phototropism, Plant Proteins genetics, Plant Roots genetics, Plant Roots growth & development, Plants, Genetically Modified, Receptors, Cell Surface genetics, Seedlings genetics, Seedlings growth & development, Seedlings metabolism, Arabidopsis genetics, Arabidopsis metabolism, Gene Expression Regulation, Plant, Indoleacetic Acids metabolism, Plant Proteins metabolism, Receptors, Cell Surface metabolism

Abstract

AUXIN-BINDING PROTEIN 1 (ABP1) is not easily accessible for molecular studies because the homozygous T-DNA insertion mutant is embryo-lethal. We found that the heterozygous abp1/ABP1 insertion mutant has defects in auxin physiology-related responses: higher root slanting angles, longer hypocotyls, agravitropic roots and hypocotyls, aphototropic hypocotyls, and decreased apical dominance. Heterozygous plants flowered earlier than wild-type plants under short-day conditions. The length of the main root, the lateral root density and the hypocotyl length were little altered in the mutant in response to auxin. Compared to wild-type plants, transcription of early auxin-regulated genes (IAA2, IAA11, IAA13, IAA14, IAA19, IAA20, SAUR9, SAUR15, SAUR23, GH3.5 and ABP1) was less strongly up-regulated in the mutant by 0.1, 1 and 10 μm IAA. Surprisingly, ABP1 was itself an early auxin-up-regulated gene. IAA uptake into the mutant seedlings during auxin treatments was indistinguishable from wild-type. Basipetal auxin transport in young roots was slower in the mutant, indicating a PIN2/EIR1 defect, while acropetal transport was indistinguishable from wild-type. In the eir1 background, three of the early auxin-regulated genes tested (IAA2, IAA13 and ABP1) were more strongly induced by 1 μm IAA in comparison to wild-type, but eight of them were less up-regulated in comparison to wild-type. Similar but not identical disturbances in regulation of early auxin-regulated genes indicate tight functional linkage of ABP1 and auxin transport regulation. We hypothesize that ABP1 is involved in the regulation of polar auxin transport, and thus affects local auxin concentration and early auxin gene regulation. In turn, ABP1 itself is under the transcriptional control of auxin., (© 2011 The Authors. The Plant Journal © 2011 Blackwell Publishing Ltd.)

Published

2011

46. Ethylene signaling regulates accumulation of the FLS2 receptor and is required for the oxidative burst contributing to plant immunity.

Author

Mersmann S, Bourdais G, Rietz S, and Robatzek S

Subjects

Arabidopsis drug effects, Arabidopsis enzymology, Arabidopsis microbiology, Flagellin pharmacology, Mutation genetics, NADPH Oxidases genetics, NADPH Oxidases metabolism, Plant Immunity drug effects, Plant Leaves drug effects, Plant Leaves immunology, Plant Leaves microbiology, Plant Stomata drug effects, Plant Stomata physiology, Pseudomonas syringae drug effects, Pseudomonas syringae growth & development, Reactive Oxygen Species metabolism, Receptors, Pattern Recognition metabolism, Respiratory Burst drug effects, Signal Transduction drug effects, Arabidopsis immunology, Arabidopsis Proteins metabolism, Ethylenes metabolism, Plant Immunity immunology, Protein Kinases metabolism, Receptors, Cell Surface metabolism, Respiratory Burst immunology, Signal Transduction immunology

Abstract

Reactive oxygen species (ROS) are potent signal molecules rapidly generated in response to stress. Detection of pathogen-associated molecular patterns induces a transient apoplastic ROS through the function of the NADPH respiratory burst oxidase homologs D (RbohD). However, little is known about the regulation of pathogen-associated molecular pattern-elicited ROS or its role in plant immunity. We investigated ROS production triggered by bacterial flagellin (flg22) in Arabidopsis (Arabidopsis thaliana). The oxidative burst was diminished in ethylene-insensitive mutants. Flagellin Sensitive2 (FLS2) accumulation was reduced in etr1 and ein2, indicating a requirement of ethylene signaling for FLS2 expression. Multiplication of virulent bacteria was enhanced in Arabidopsis lines displaying altered ROS production at early but not late stages of infection, suggesting an impairment of preinvasive immunity. Stomatal closure, a mechanism used to reduce bacterial entry into plant tissues, was abolished in etr1, ein2, and rbohD mutants. These results point to the importance of flg22-triggered ROS at an early stage of the plant immune response.

Published

2010

47. Balanced nuclear and cytoplasmic activities of EDS1 are required for a complete plant innate immune response.

Author

García AV, Blanvillain-Baufumé S, Huibers RP, Wiermer M, Li G, Gobbato E, Rietz S, and Parker JE

Subjects

Arabidopsis genetics, Arabidopsis ultrastructure, Arabidopsis Proteins immunology, DNA-Binding Proteins immunology, Dexamethasone pharmacology, Gene Expression Regulation, Plant, Immunity, Innate, Plant Diseases immunology, Protein Transport, Arabidopsis immunology, Arabidopsis Proteins physiology, Cell Nucleus metabolism, Cytoplasm metabolism, DNA-Binding Proteins physiology

Abstract

An important layer of plant innate immunity to host-adapted pathogens is conferred by intracellular nucleotide-binding/oligomerization domain-leucine rich repeat (NB-LRR) receptors recognizing specific microbial effectors. Signaling from activated receptors of the TIR (Toll/Interleukin-1 Receptor)-NB-LRR class converges on the nucleo-cytoplasmic immune regulator EDS1 (Enhanced Disease Susceptibility1). In this report we show that a receptor-stimulated increase in accumulation of nuclear EDS1 precedes or coincides with the EDS1-dependent induction and repression of defense-related genes. EDS1 is capable of nuclear transport receptor-mediated shuttling between the cytoplasm and nucleus. By enhancing EDS1 export from inside nuclei (through attachment of an additional nuclear export sequence (NES)) or conditionally releasing EDS1 to the nucleus (by fusion to a glucocorticoid receptor (GR)) in transgenic Arabidopsis we establish that the EDS1 nuclear pool is essential for resistance to biotrophic and hemi-biotrophic pathogens and for transcriptional reprogramming. Evidence points to post-transcriptional processes regulating receptor-triggered accumulation of EDS1 in nuclei. Changes in nuclear EDS1 levels become equilibrated with the cytoplasmic EDS1 pool and cytoplasmic EDS1 is needed for complete resistance and restriction of host cell death at infection sites. We propose that coordinated nuclear and cytoplasmic activities of EDS1 enable the plant to mount an appropriately balanced immune response to pathogen attack.

Published

2010

48. Roles of Arabidopsis patatin-related phospholipases a in root development are related to auxin responses and phosphate deficiency.

Author

Rietz S, Dermendjiev G, Oppermann E, Tafesse FG, Effendi Y, Holk A, Parker JE, Teige M, and Scherer GF

Subjects

Amino Acid Sequence, Arabidopsis genetics, Arabidopsis Proteins genetics, Molecular Sequence Data, Phosphates deficiency, Phosphates metabolism, Phospholipases A genetics, Phosphorylation, Plant Roots genetics, Plants, Genetically Modified enzymology, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Sequence Homology, Amino Acid, Signal Transduction genetics, Signal Transduction physiology, Arabidopsis enzymology, Arabidopsis metabolism, Arabidopsis Proteins metabolism, Indoleacetic Acids metabolism, Phospholipases A metabolism, Plant Roots enzymology, Plant Roots metabolism

Abstract

Phospholipase A enzymes cleave phospho- and galactolipids to generate free fatty acids and lysolipids that function in animal and plant hormone signaling. Here, we describe three Arabidopsis patatin-related phospholipase A (pPLA) genes AtPLAIVA, AtPLAIVB, and AtPLAIVC and their corresponding proteins. Loss-of-function mutants reveal roles for these pPLAs in roots during normal development and under phosphate deprivation. AtPLAIVA is expressed strongly and exclusively in roots and AtplaIVA-null mutants have reduced lateral root development, characteristic of an impaired auxin response. By contrast, AtPLAIVB is expressed weakly in roots, cotyledons, and leaves but is transcriptionally induced by auxin, although AtplaIVB mutants develop normally. AtPLAIVC is expressed in the floral gynaecium and is induced by abscisic acid (ABA) or phosphate deficiency in roots. While an AtplaIVC-1 loss-of-function mutant displays ABA responsiveness, it exhibits an impaired response to phosphate deficiency during root development. Recombinant AtPLA proteins hydrolyze preferentially galactolipids and, less efficiently, phospholipids, although these enzymes are not localized in chloroplasts. We find that AtPLAIVA and AtPLAIVB are phosphorylated by calcium-dependent protein kinases in vitro and this enhances their activities on phosphatidylcholine but not on phosphatidylglycerol. Taken together, the data reveal novel functions of pPLAs in root development with individual roles at the interface between phosphate deficiency and auxin signaling.

Published

2010

49. Salicylic acid antagonism of EDS1-driven cell death is important for immune and oxidative stress responses in Arabidopsis.

Author

Straus MR, Rietz S, Ver Loren van Themaat E, Bartsch M, and Parker JE

Subjects

Arabidopsis genetics, Arabidopsis Proteins genetics, Chloroplasts metabolism, DNA-Binding Proteins genetics, Gene Expression Profiling, Gene Expression Regulation, Plant, Hydrogen Peroxide metabolism, Pyrophosphatases genetics, Pyrophosphatases metabolism, RNA, Plant genetics, Reactive Oxygen Species metabolism, Sequence Analysis, DNA, Stress, Physiological, Nudix Hydrolases, Arabidopsis immunology, Arabidopsis metabolism, Arabidopsis Proteins metabolism, DNA-Binding Proteins metabolism, Oxidative Stress, Salicylic Acid metabolism

Abstract

Reactive oxygen species (ROS) have emerged as signals in the responses of plants to stress. Arabidopsis Enhanced Disease Susceptibility1 (EDS1) regulates defense and cell death against biotrophic pathogens and controls cell death propagation in response to chloroplast-derived ROS. Arabidopsis Nudix hydrolase7 (nudt7) mutants are sensitized to photo-oxidative stress and display EDS1-dependent enhanced resistance, salicylic acid (SA) accumulation and initiation of cell death. Here we explored the relationship between EDS1, EDS1-regulated SA and ROS by examining gene expression profiles, photo-oxidative stress and resistance phenotypes of nudt7 mutants in combination with eds1 and the SA-biosynthetic mutant, sid2. We establish that EDS1 controls steps downstream of chloroplast-derived O(2)(*-) that lead to SA-assisted H(2)O(2) accumulation as part of a mechanism limiting cell death. A combination of EDS1-regulated SA-antagonized and SA-promoted processes is necessary for resistance to host-adapted pathogens and for a balanced response to photo-oxidative stress. In contrast to SA, the apoplastic ROS-producing enzyme NADPH oxidase RbohD promotes initiation of cell death during photo-oxidative stress. Thus, chloroplastic O(2)(*-) signals are processed by EDS1 to produce counter-balancing activities of SA and RbohD in the control of cell death. Our data strengthen the idea that EDS1 responds to the status of O(2)(*-) or O(2)(*-)-generated molecules to coordinate cell death and defense outputs. This activity may enable the plant to respond flexibly to different biotic and abiotic stresses in the environment.

Published

2010

50. Arabidopsis MAP kinase 4 regulates salicylic acid- and jasmonic acid/ethylene-dependent responses via EDS1 and PAD4.

Author

Brodersen P, Petersen M, Bjørn Nielsen H, Zhu S, Newman MA, Shokat KM, Rietz S, Parker J, and Mundy J

Subjects

Alternaria physiology, Arabidopsis enzymology, Arabidopsis metabolism, Arabidopsis microbiology, Gene Deletion, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Plant, Oxylipins, Plant Diseases microbiology, Transcriptional Activation, Arabidopsis drug effects, Arabidopsis Proteins metabolism, Carboxylic Ester Hydrolases metabolism, Cyclopentanes pharmacology, DNA-Binding Proteins metabolism, Ethylenes pharmacology, Mitogen-Activated Protein Kinases metabolism, Salicylic Acid pharmacology

Abstract

Arabidopsis MPK4 has been implicated in plant defense regulation because mpk4 knockout plants exhibit constitutive activation of salicylic acid (SA)-dependent defenses, but fail to induce jasmonic acid (JA) defense marker genes in response to JA. We show here that mpk4 mutants are also defective in defense gene induction in response to ethylene (ET), and that they are more susceptible than wild-type (WT) to Alternaria brassicicola that induces the ET/JA defense pathway(s). Both SA-repressing and ET/JA-(co)activating functions depend on MPK4 kinase activity and involve the defense regulators EDS1 and PAD4, as mutations in these genes suppress de-repression of the SA pathway and suppress the block of the ET/JA pathway in mpk4. EDS1/PAD4 thus affect SA-ET/JA signal antagonism as activators of SA but as repressors of ET/JA defenses, and MPK4 negatively regulates both of these functions. We also show that the MPK4-EDS1/PAD4 branch of ET defense signaling is independent of the ERF1 transcription factor, and use comparative microarray analysis of ctr1, ctr1/mpk4, mpk4 and WT to show that MPK4 is required for induction of a small subset of ET-regulated genes. The regulation of some, but not all, of these genes involves EDS1 and PAD4.

Published

2006