Trujillo Laboratory Leibniz Institute of Plant Biochemistry Independent Research Group Kathrin Kowarschik, Sylvestre Marillonnet, Marco Trujillo* (2017) UbiGate: A Synthetic Biology Toolbox to Analyse  Ubiquitintion. New Phytologist, doi: 10.1111/nph.14900 Marco Trujillo* (2017) News from the PUB: An up-date on Plant U-box proteins.  Journal of Experimental Botany,  doi:10.1093/jxb/erx411 Hidenori Matsui, Yuko Nomura, Mayumi Egusa, Gang-Su Hyon, Hironori Kaminaka, Marco Trujillo, Ken Shirasu,  Hirofumi Nakagami (2017) GYF domain protein PSIG1 dampens cell death induction during plant-pathogen  interactions Plos Genetics, 13(10):e1007037. doi: 10.1371/journal.pgen.1007037 Jeyaraman Rajaraman, Dimitar Douchkov, Stefanie Lück, Götz Hensel, Twan Rutten, Caroline Höfle, Ralph  Hückelhoven, Jörn Klinkenberg, Eva Bauer, Marco Trujillo, Thomas Schmutzer, Jochen Kumlehn, and Patrick  Schweizer (2017) The partial duplication of an E3-ligase gene in Triticeae species mediates resistance to powdery  mildew fungi. BioRxiv, Martin Winkler, Antje Hellmuth, Philipp Janitza, Michael Niemeyer, Gideon Christ, Sophia L. Samodelov, Verona  Wilde, Petra Majovsky, Marco Trujillo, Marcel Quint, Wolfgang Hoehenwarter, Matias D. Zurbriggen, Luz Irina A.  Calderón Villalobos (2017) Variation in auxin sensing guides AUX/IAA repressor ubiquitylation and destruction.  Nature Communications, 8:15706 Giulia Furlan, Hirofumi Nakagami, Lennart Eschen-Lippold, Petra Majovsky, Kathrin Kowarschik, Xiyuan Jiang,  Wolfgang Hoehenwarter, Justin Lee, Marco Trujillo* (2017) Dampening of the Immune Response by Changes in PUB22 Ubiquitination Modes Triggered by MPK3. The Plant Cell, 29:726-745 Giulia Furlan, Marco Trujillo* (2016) In vitro ubiquitination activity assays in plant immune responses. Plant Pattern  Recognition Receptors: Methods and Protocols, Methods in Molecular Biology, vol. 1578:109-121 Marco Trujillo* (2015) Analysis of the lmmunity-Related Oxidative Bursts by a Luminol-Based Assay. Environmental  Responses in Plants: Methods and Protocols, Methods in Molecular Biology, vol. 1398:323-329 Peter Dörmann, Hyeran Kim, Thomas Ott, Paul Schulze-Lefert, Marco Trujillo, Vera Wewer, Ralph Hückelhoven  (2014) Cell-autonomous defense, re-organization and trafficking of membranes in plant-microbe interactions. New  Phytologist, 13:402-408 Petra Majovsky, Christine Naumann, Chil-Woo Lee, Ines Lassowskat, Marco Trujillo, Nico Dissmeyer, Wolfgang  Hoehenwarter (2014) Targeted Proteomics Analysis of Protein Degradation in Plant Signalling on an LTQ-Orbitrap  Mass Spectrometer. Journal of Proteome Research. 2014 Sep 3. [Epub ahead of print] PubMed PMID: 25130057 Martin Stegmann, Ryan G. Anderson, Lore Westphal, Sabine Rosahl, John M. McDowell, Marco Trujillo* (2013) The  exocyst subunit Exo70B1 is involved in the immune response of Arabidopsis thaliana to different pathogens and cell  death. Plant Signal Behav. 2013 Dec 31;8(12) PMID: 24389869. Martin Stegmann, Ryan G. Anderson, Kazuya Ichimura, Tamara Pecenkova, Patrick Reuter, Viktor Zarsky, John M.  McDowell, Ken Shirasu, Marco Trujillo* (2012) The Ubiquitin Ligase PUB22 Targets a Subunit of the Exocyst Complex  Required for PAMP-Triggered Responses in Arabidopsis. Plant Cell, 24: 4703-16 o Featured in: Nancy R. Hofmann (2012) Ubiquitination and Exocytosis in Plant Immunity.                             Plant Cell, 24: 4703-16  Furlan G, Klinkenberg J, *Trujillo M (2012) Regulation of plant Immune receptors by ubiquitination. Frontiers in  Plant Science 3:238  Jacob S, Zechmann B, Molitor A, Trujillo M, Petutschnig E, Likpa V, Kogel K-H, Schäfer P (2011) Broad Spectrum  Suppression of Innate Immunity Is Required for Colonization of Arabidopsis thaliana Roots by the Fungus  Piriformospora indica. Plant Phys 156: 726-40 Trujillo M*, Shirasu K*(2010) Ubiquitination in Plant Immunity. Current Opinion in Plant Biology 13:402-408  (*corresponding authors) Trujillo M, Ichimura K, Casais C, Shirasu K (2008) Negative regulation of PAMP-triggered immunity by E3 ubitquitin  ligase triplet in Arabidopsis. Curr Biol 18: 1396-1401 Trujillo M, Altschmied L, Schweizer P, Kogel K-H, Hückelhoven R (2006) Respiratory Burst Oxidase Homologue A of  barley contributes to penetration by the powdery mildew fungus Blumeria graminis f.sp. hordei. J Exp Bot 57: 3781-  91 Trujillo M , Kogel K-H, Hückelhoven R (2005) Superoxide and hydrogen peroxide play different roles in the nonhost  interaction of barley and wheat with inappropiate formae speciales of Blumeria graminis. Mol Plant Microbe  Interact 17: 304-312 Trujillo M, Tröger M, Niks RE, Kogel K-H, Hückelhoven R (2004) Mechanistic and genetic overlap of barley host and  non-host resistance to Blumeria graminis. Mol Plant Pathol 5: 389-396. Kogel K-H, Hückelhoven R, Trujillo M (2004) Patent: Method for obtaining the pathogenic resistance in plants. The  invention relates to a method for obtaining or increasing the pathogenic resistance in plants by reducing the  expression, activity or the functioning of a NADPH oxidase. WO 2004/009820 A1 Hückelhoven R, Dechert C, Trujillo M, Kogel K-H (2001) Differential expression of putative cell death regulator  genes in near-isogenic, resistant and susceptible barley lines during interaction with the powdery mildew fungus.  Plant Mol Biol 47: 739-748  Hückelhoven R, Trujillo M, Dechert C, Schultheiss H, Kogel K-H (2002) Functional studies on the role of reactive  oxygen intermediates in the resistance of barley against powdery mildew. Plant Prot Science 38: 458-460  Hückelhoven R, Fodor J, Trujillo M, Kogel K-H (2000) Barley Mla and Rar mutants compromised in the hypersensitive  death response against Blumeria graminis f.sp. hordei modified in their ability to accumulate reactive oxygen  intermediates at sites of fungal invasion. Planta 212: 16-24 Hückelhoven R, Trujillo M, Kogel K-H (2000) Mutations in Ror1 and Ror2 cause modification of hydrogen peroxide  accumulation in mlo-barley under attack from the powdery mildew fungus. Mol Plant Pathol 1: 287-92  Info Lab Tour twitter Links Internal