Authors;Title;Publication;Volume;Booktitle;Editors;Pages;Year Goslin, K., Eschen-Lippold, L., Naumann, C., Linster, E., Sorel, M., Klecker, M., Marchi, R. D., Kind, A., Wirtz, M., Lee, J., Dissmeyer, N. & Graciet, E.;Differential N-end rule degradation of RIN4/NOI fragments generated by the AvrRpt2 effector protease;bioRxiv;0;0;;0;2019 Dietz, S., Herz, K., Döll, S., Haider, S., Jandt, U., Bruelheide, H. & Scheel, D.;Semi‐polar root exudates in natural grassland communities;Ecol Evol;9;0;;5526-5541;2019 Herz, K., Dietz, S., Gorzolka, K., Haider, S., Jandt, U., Scheel, D. & Bruelheide, H.;Correction: Linking root exudates to functional plant traits;PLOS ONE;14;0;;e0213965;2019 Westphal, L., Strehmel, N., Eschen-Lippold, L., Bauer, N., Westermann, B., Rosahl, S., Scheel, D. & Lee, J.;pH effects on plant calcium fluxes: lessons from acidification-mediated calcium elevation induced by the γ-glutamyl-leucine dipeptide identified from Phytophthora infestans;Sci Rep;9;0;;4733;2019 Matern, A., Böttcher, C., Eschen-Lippold, L., Westermann, B., Smolka, U., Döll, S., Trempel, F., Aryal, B., Scheel, D., Geisler, M. & Rosahl, S.;A substrate of the ABC transporter PEN3 stimulates bacterial flagellin (flg22)-induced callose deposition in Arabidopsis thaliana;J Biol Chem;294;0;;6857-6870;2019 Guerra, T., Schilling, S., Hake, K., Gorzolka, K., Sylvester, F., Conrads, B., Westermann, B. & Romeis, T.;Calcium‐dependent protein kinase 5 links calcium‐signaling with N‐Hydroxy‐L‐pipecolic acid‐ and SARD1‐dependent immune memory in systemic acquired resistance;New Phytol;0;0;;0;2019 Doell, S., Arens, N. & Mock, H.;Liquid Chromatography and Liquid Chromatography–Mass Spectrometry of Plants: Techniques and Applications;0;0;Encyclopedia of Analytical Chemistry;;0;2019 Menzel, W., Stenzel, I., Helbig, L., Krishnamoorthy, P., Neumann, S., Eschen‐Lippold, L., Heilmann, M., Lee, J. & Heilmann, I.;A PAMP‐triggered MAPK cascade inhibits phosphatidylinositol 4,5‐bisphosphate production by PIP5K6 in Arabidopsis thaliana;New Phytol;224;0;;833-847;2019 Goslin, K., Eschen-Lippold, L., Naumann, C., Linster, E., Sorel, M., Klecker, M., de Marchi, R., Kind, A., Wirtz, M., Lee, J., Dissmeyer, N. & Graciet, E.;Differential N-end Rule Degradation of RIN4/NOI Fragments Generated by the AvrRpt2 Effector Protease;Plant Physiol;180;0;;2272-2289;2019 Tabassum, N., Eschen‐Lippold, L., Athmer, B., Baruah, M., Brode, M., Maldonado‐Bonilla, L. D., Hoehenwarter, W., Hause, G., Scheel, D. & Lee, J.;Phosphorylation‐dependent control of an RNA granule‐localized protein that fine‐tunes defence gene expression at a post‐transcriptional level;Plant J;0;0;;0;2019 Peters, K., Worrich, A., Weinhold, A., Alka, O., Balcke, G., Birkemeyer, C., Bruelheide, H., Calf, O. W., Dietz, S., Dührkop, K., Gaquerel, E., Heinig, U., Kücklich, M., Macel, M., Müller, C., Poeschl, Y., Pohnert, G., Ristok, C., Rodríguez, V. M., Ruttkies, C., Schuman, M., Schweiger, R., Shahaf, N., Steinbeck, C., Tortosa, M., Treutler, H., Ueberschaar, N., Velasco, P., Weiß, B. M., Widdig, A., Neumann, S. & van Dam, N. M.;Current Challenges in Plant Eco-Metabolomics;Int J Mol Sci;19;0;;1385;2018 Peters, K., Gorzolka, K., Bruelheide, H. & Neumann, S.;Seasonal variation of secondary metabolites in nine different bryophytes;Ecol Evol;8;0;;9105-9117;2018 Wirthmueller, L., Asai, S., Rallapalli, G., Sklenar, J., Fabro, G., Kim, D. S., Lintermann, R., Jaspers, P., Wrzaczek, M., Kangasjärvi, J., MacLean, D., Menke, F. L. H., Banfield, M. J. & Jones, J. D. G.;Arabidopsis downy mildew effector HaRxL106 suppresses plant immunity by binding to RADICAL-INDUCED CELL DEATH1;New Phytol;220;0;;232-248;2018 Chen, C., Masi, R. D., Lintermann, R. & Wirthmueller, L.;Nuclear Import of Arabidopsis Poly(ADP-Ribose) Polymerase 2 Is Mediated by Importin-α and a Nuclear Localization Sequence Located Between the Predicted SAP Domains;Front Plant Sci;9;0;;1581;2018 Peters, K., Gorzolka, K., Bruelheide, H. & Neumann, S.;Computational workflow to study the seasonal variation of secondary metabolites in nine different bryophytes;Sci Data;5;0;;180179;2018 Herz, K., Dietz, S., Gorzolka, K., Haider, S., Jandt, U., Scheel, D. & Bruelheide, H.;Linking root exudates to functional plant traits;PLOS ONE;13;0;;e0204128;2018 Knogge, W.;Diseases affecting barley: scald;Burleigh Dodds Series in Agricultural Science;0;Integrated disease management of wheat and barley;;183-215;2018 Sopeña‐Torres, S., Jordá, L., Sánchez‐Rodríguez, C., Miedes, E., Escudero, V., Swami, S., López, G., Piślewska‐Bednarek, M., Lassowskat, I., Lee, J., Gu, Y., Haigis, S., Alexander, D., Pattathil, S., Muñoz‐Barrios, A., Bednarek, P., Somerville, S., Schulze‐Lefert, P., Hahn, M. G., Scheel, D. & Molina, A.;YODA MAP3K kinase regulates plant immune responses conferring broad‐spectrum disease resistance;New Phytol;218;0;;661-680;2018 Zembek, P., Danilecka, A., Hoser, R., Eschen-Lippold, L., Benicka, M., Grech-Baran, M., Rymaszewski, W., Barymow-Filoniuk, I., Morgiewicz, K., Kwiatkowski, J., Piechocki, M., Poznanski, J., Lee, J., Hennig, J. & Krzymowska, M.;Two Strategies of Pseudomonas syringae to Avoid Recognition of the HopQ1 Effector in Nicotiana Species;Front Plant Sci;9;0;;978;2018 Teh, O.-K., Lee, C.-W., Ditengou, F. A., Klecker, T., Furlan, G., Zietz, M., Hause, G., Eschen-Lippold, L., Hoehenwarter, W., Lee, J., Ott, T. & Trujillo, M.;Phosphorylation of the exocyst subunit Exo70B2 contributes to the regulation of its function;BioRxiv;0;0;;0;2018 Cotrim, C. A., Weidner, A., Strehmel, N., Bisol, T. B., Meyer, D., Brandt, W., Wessjohann, L. A. & Stubbs, M. T.;A Distinct Aromatic Prenyltransferase Associated with the Futalosine Pathway;ChemistrySelect;2;0;;9319-9325;2017 Furlan, G., Nakagami, H., Eschen-Lippold, L., Jiang, X., Majovsky, P., Kowarschik, K., Hoehenwarter, W., Lee, J. & Trujillo, M.;Changes in PUB22 Ubiquitination Modes Triggered by MITOGEN-ACTIVATED PROTEIN KINASE3 Dampen the Immune Response;Plant Cell;29;0;;726-745;2017 Rana, R., Herz, K., Bruelheide, H., Dietz, S., Haider, S., Jandt, U. & Pena, R.;Leaf Attenuated Total Reflection Fourier Transform Infrared (ATR-FTIR) biochemical profile of grassland plant species related to land-use intensity;Ecol Indic;84;0;;803-810;2017 Strehmel, N., Hoehenwarter, W., Mönchgesang, S., Majovsky, P., Krüger, S., Scheel, D. & Lee, J.;Stress-reated mitogen-activated protein kinases stimulate the accumulation of small molecules and proteins in Arabidopsis thaliana root exudates.;Front Plant Sci; 8 ;0;;1292;2017 Hempel, F., Stenzel, I., Heilmann, M., Krishnamoorthy, P., Menzel, W., Golbik, R., Helm, S., Dobritzsch, D., Baginsky, S., Lee, J., Hoehenwarter, W. & Heilmann, I.;MAPKs influence pollen tube growth by controlling the formation of Phosphatidylinositol 4,5-Bisphosphate in an apical plasma membrane domain.;Plant Cell;29;0;;3030-3050;2017 Küster, N., Rosahl, S. & Dräger, B.;Potato plants with genetically engineered tropane alkaloid precursors;Planta;245 ;0;;355-365;2017 Herz, K., Dietz, S., Haider, S., Jandt, U., Scheel, D. & Bruelheide, H.;Predicting individual plant performance in grasslands.;Ecol Evol;7;0;;8958-8965;2017 Herz, K., Dietz, S., Haider, S., Jandt, U., Scheel, D. & Bruelheide, H.;Drivers of intraspecific trait variation of grass and forb species in German meadows and pastures;J Veg Sci;28;0;;705–716;2017 Palm-Forster, M. A. T., Eschen-Lippold, L., Uhrig, J., Scheel, D. & Lee, J.;A novel family of proline/serine-rich proteins, which are phospho-targets of stress-related mitogen-activated protein kinases, differentially regulates growth and pathogen defense in Arabidopsis thaliana;Plant Mol Biol;95;0;;123-140;2017 Blüher, D., Laha, D., Thieme, S., Hofer, A., Eschen-Lippold, L., Masch, A., Balcke, G., Pavlovic, I., Nagel, O., Schonsky, A., Hinkelmann, R., Wörner, J., Parvin, N., Greiner, R., Weber, S., Tissier, A., Schutkowski, M., Lee, J., Jessen, H., Schaaf, G. & Bonas, U.;A 1-phytase type III effector interferes with plant hormone signaling;Nat Commun;8;0;;2159;2017 Ziegler, J., Schmidt, S., Strehmel, N., Scheel, D. & Abel, S.;Arabidopsis Transporter ABCG37/PDR9 contributes primarily highly oxygenated Coumarins to Root Exudation;Sci Rep;7;0;;3704;2017 Witzel, K., Strehmel, N., Baldermann, S., Neugart, S., Becker, Y., Becker, M., Berger, B., Scheel, D., Grosch, R., Schreiner, M. & Ruppel, S.;Arabidopsis thaliana root and root exudate metabolism is altered by the growth-promoting bacterium Kosakonia radicincitans DSM 16656T;Plant Soil;419 ;0;;557-573;2017 Eschen-Lippold, L., Scheel, D. & Lee, J.;Teaching an old dog new tricks: Suppressing activation of specific mitogen-activated kinases as a potential virulence function of the bacterial AvrRpt2 effector protein;Plant Signal Behav;11;0;;e1257456;2016 Mönchgesang, S., Strehmel, N., Trutschel, D., Westphal, L., Neumann, S. & Scheel, D.;Plant-to-plant variability in root metabolite profiles of 19 <i>Arabidopsis thaliana</i> accessions is substance-class-dependent;Inter J Mol Sci;17;0;;0;2016 Chen, S., Wirthmueller, L., Stauber, J., Lory, N., Holtkotte, X., Leson, L., Schenkel, C., Ahmad, M. & Hoecker, U.;The functional divergence between SPA1 and SPA2 in Arabidopsis photomorphogenesis maps primarily to the respective N-terminal kinase-like domain;BMC Plant Biol;16;0;;165;2016 Genenncher, B., Wirthmueller, L., Roth, C., Klenke, M., Ma, L., Sharon, A. & Wiermer, M.;Nucleoporin-Regulated MAP Kinase Signaling in Immunity to a Necrotrophic Fungal Pathogen;Plant Physiol;172;0;;1293-1305;2016 Mönchgesang, S., Strehmel, N., Schmidt, S., Westphal, L., Taruttis, F., Müller, E., Herklotz, S., Neumann, S. & Scheel, D.;Natural variation of roots exudates in Arabidopsis thaliana - linking metabolomic and genomic data.;Sci Rep;6;0;;29033 ;2016 Dobritzsch, M., Lübken, T., Eschen-Lippold, L., Gorzolka, K., Blum, E., Matern, A., Marillonnet, S., Böttcher, C., Dräger, B. & Rosahl, S.;MATE Transporter-Dependent Export of Hydroxycinnamic Acid Amides.;Plant Cell;28;0;;583-596;2016 Eschen-Lippold, L., Jiang, X., Elmore, J. M., Mackey, D., Shan, L., Coaker, G., Scheel, D. & Lee, J.;Bacterial AvrRpt2-like cysteine proteases block activation of the Arabidopsis mitogen-activated protein kinases, MPK4 and MPK11.;Plant Physiol;171;0;;2223-2238;2016 Brömme, T., Schmitz, C., Moszner, N., Burtscher, P., Strehmel, N. & Strehmel, B.;Photochemical Oxidation of NIR Photosensitizers in the Presence of Radical Initiators and Their Prospective Use in Dental Applications;ChemistrySelect;1;0;;524–532;2016 Penselin, D., Münsterkötter, M., Kirsten, S., Felder, M., Taudien, S., Platzer, M., Ashelford, K., Paskiewicz, K. H., Harrison, R. J., Hughes, D. J., Wolf, T., Shelest, E., Graap, J., Hoffmann, J., Wenzel, C.: Wöltje, N., King, K. M., Fitt, B. D. L., Güldener, U., Avrova, A. & Knogge, W.;Comparative genomics to explore phylogenetic relationship, cryptic sexual potential and host specificity of Rhynchosporium species on grasses;BMC Genomics;17;0;;953;2016 Ranf, S., Scheel, D. & Lee, J.;Challenges in the identification of microbe-associated molecular patterns in plant and animal innate immunity: a case study with bacterial lipopolysaccharide;Mol Plant Pathol.;17;0;;1165–1169 ;2016 Faden, F., Eschen-Lippold, L. & Dissmeyer, N.;Normalized Quantitative Western Blotting Based on Standardized Fluorescent Labeling;Methods Mol Biol;1450;Plant Proteostasis;;247-258;2016 Lassowskat, I., Hoehenwarter, W., Lee, J. & Scheel, D.;Phosphoprotein Enrichment Combined with Phosphopeptide Enrichment to Identify Putative Phosphoproteins During Defense Response in Arabidopsis thaliana;Methods Mol Biol;1398;Environmental Responses in Plants;;373-383;2016 Trempel, F., Ranf, S., Scheel, D. & Lee, J.;Quantitative Analysis of Microbe-Associated Molecular Pattern (MAMP)-Induced Ca2+ Transients in Plants;Methods Mol Biol;1398;Environmental Responses in Plants;;331-344;2016 Trempel, F., Kajiura, H., Ranf, S., Grimmer, J., Westphal, L., Zipfel, C., Scheel, D., Fujiyama, K. & Lee, J.;Altered glycosylation of exported proteins, including surface immune receptors, compromises calcium and downstream signaling responses to microbe-associated molecular patterns in Arabidopsis thaliana;BMC Plant Biol;16;0;;31;2016 Sheikh, A. H., Eschen-Lippold, L., Pecher, P., Hoehenwarter, W., Sinha, A. K., Scheel, D. & Lee, J.;Regulation of WRKY46 Transcription Factor Function by Mitogen-Activated Protein Kinases in Arabidopsis thaliana;Front Plant Sci;7;0;;61;2016 Ruttkies, C., Strehmel, N., Scheel, D. & Neumann, S.;Annotation of metabolites from gas chromatography/atmospheric pressure chemical ionization tandem mass spectrometry data using an in silico generated compound database and MetFrag;Rapid Commun Mass Spectrom;29;0;;1521-1529;2015 Wirthmueller, L., Roth, C., Fabro, G., Caillaud, M.-C., Rallapalli, G., Asai, S., Sklenar, J., Jones, A. M. E., Wiermer, M., Jones, J. D. G. & Banfield, M. J.;Probing formation of cargo/importin-α transport complexes in plant cells using a pathogen effector;Plant J;81;0;;40-52;2015 Sarris, P. F., Duxbury, Z., Huh, S. U., Ma, Y., Segonzac, C., Sklenar, J., Derbyshire, P., Cevik, V., Rallapalli, G., Saucet, S. B., Wirthmueller, L., Menke, F. L. H., Sohn, K. H. & Jones, J. D. G.;A Plant Immune Receptor Detects Pathogen Effectors that Target WRKY Transcription Factors;Cell;161;0;;1089-1100;2015 Lee, J., Eschen-Lippold, L., Lassowskat, I., Böttcher, C. & Scheel, D.;Cellular reprogramming through mitogen-activated protein kinases;Front Plant Sci;6;<br />;940;2015 Geissler, K., Eschen-Lippold, L., Naumann, K., Schneeberger, K., Weigel, D., Scheel, D., Rosahl, S. & Westphal, L.;Mutations in ENHANCED DISEASE RESISTANCE1 (EDR1) alter the response of Arabidopsis thaliana to Phytophthora infestans and the bacterial PAMPs, flg22 and elf18.;Mol Plant Microbe Interact.;28;0;;122-133;2015 Buhtz, A., Witzel, K., Strehmel, N., Ziegler, J., Abel, S. & Grosch, R.;Perturbations in the Primary Metabolism of Tomato and Arabidopsis thaliana Plants Infected with the Soil-Borne Fungus Verticillium dahliae;PLoS ONE;10;0;;e0138242;2015 Dobritzsch, S., Weyhe, M., Schubert, R., Dindas, J., Hause, G., Kopka, J. & Hause, B.;Dissection of jasmonate functions in tomato stamen development by transcriptome and metabolome analyses.; BMC Biology;13:28;0;;28;2015 Kühnlenz, T., Westphal, L., Schmidt, H., Scheel, D. & Clemens, S.;Expression of Caenorhabditis elegans PCS in the AtPCS1-deficient Arabidopsis thaliana cad1-3 mutant separates the metal tolerance and nonhost resistance functions of phytochelatin synthases.;Plant Cell Environ;38;0;;2239–2247;2015 Ranf, S., Gisch, N., Schäffer, M., Illig, T., Westphal, L., Knirel, Y. A., Sánchez-Carballo, P. M., Zähringer, U., Hückelhoven, R., Lee, J. & Scheel, D.;A lectin S-domain receptor kinase mediates lipopolysaccharide sensing in Arabidopsis thaliana;Nat Immunol;16;0;; 426–433;2015 Lahrmann, U., Strehmel, N., Langen, G., Frerigmann, H., Leson, L., Ding, Y., Scheel, D., Herklotz, S., Hilbert, M. & Zuccaro, A.;Mutualistic root endophytism is not associated with the reduction of saprotrophic traits and requires a noncompromised plant innate immunity; New Phytologist;207;0;;841–857;2015 Landgraf, R., Smolka, U., Altmann, S., Eschen-Lippold, L., Senning, M., Sonnewald, S., Weigel, B., Frolova, N., Strehmel, N., Hause, G., Scheel, D., Böttcher, C. & Rosahl, S.;The ABC transporter ABCG1 is required for suberin formation in potato tuber periderm;Plant Cell;26;0;;3403-3415;2014 Zhou, X., Graumann, K., Wirthmueller, L., Jones, J. D. G. & Meier, I.;Identification of unique SUN-interacting nuclear envelope proteins with diverse functions in plants;J Cell Biol;205;0;;677-692;2014 Asai, S., Rallapalli, G., Piquerez, S. J. M., Caillaud, M.-C., Furzer, O. J., Ishaque, N., Wirthmueller, L., Fabro, G., Shirasu, K. & Jones, J. D. G.;Expression Profiling during Arabidopsis/Downy Mildew Interaction Reveals a Highly-Expressed Effector That Attenuates Responses to Salicylic Acid;PLOS Pathog;10;0;;e1004443;2014 Caillaud, M.-C., Wirthmueller, L., Sklenar, J., Findlay, K., Piquerez, S. J. M., Jones, A. M. E., Robatzek, S., Jones, J. D. 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S., Kavi Kishor, P. B., Seiler, C., Kuhlmann, M., Eschen-Lippold, L., Lee, J., Reddy, M. 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D. G. & Parker, J. E.;Nuclear Accumulation of the Arabidopsis Immune Receptor RPS4 Is Necessary for Triggering EDS1-Dependent Defense;Curr Biol;17;0;;2023-2029;2007 Noël, L. D., Cagna, G., Stuttmann, J., Wirthmüller, L., Betsuyaku, S., Witte, C.-P., Bhat, R., Pochon, N., Colby, T. & Parker, J. E.;Interaction between SGT1 and Cytosolic/Nuclear HSC70 Chaperones Regulates Arabidopsis Immune Responses;Plant Cell;19;0;;4061-4076;2007 van't Slot, K.A.E., Gierlich, A. & Knogge, W.;A single binding site mediates resistance- and disease-accociated activities of the effectors protein NIP1 from the barley pathogen <i>Rhynchosporium secalis</i>Plant Physiol. ;144;0;;1654-1666;2007 Eschen-Lippold, L., Rothe, G., Stumpe, M., Göbel, C., Feussner, I. & Rosahl, S.;Reduction of divinyl ether-containing polyunsaturated fatty acids in transgenic potato plants;Phytochemistry ;68;0;;797-801;2007 ten Hoopen, P., Hunger, A., Müller, A., Hause, B., Kramell, R., Wasternack, C., Rosahl, S. & Conrad, U.;Immunomodulation of jasmonate to manipulate the wound response;J. Exp. Botany;58;0;;2525-2535;2007 Birschwilks, M., Sauer, N., Scheel, D. & Neumann, S.;<i>Arabidopsis thaliana</i> is a susceptible host plant for the holoparasite <i>Cuscuta spec.</i>PLANTA ;226;0;;1231-1241;2007 Halim, V.A., Eschen-Lippold, L., Altmann, S., Birschwilks, M., Scheel, D. & Rosahl, S.;Salicylic acid affects susceptibility of <i>Solanum tuberosum</i> to <i>Phytophthora infestans</i>Mol. Plant-Microbe Interact.;20;0;;1346-1352;2007 Böttcher, C., von Roepenack-Lahaye, E., Willscher, E., Scheel, D. & Clemens, S.;Evaluation of matrix effects in metabolite profiling based on capillary liquid chromatography electrospray ionization quadrupole time-of-flight mass spectrometry;Anal. Chem;79;0;;1507 1513;2007 Gust, A.A., Biswas, R., Lenz, H.D., Rauhut, T., Ranf, S., Kemmerling, B., Götz, F., Glawischnig, E., Lee, J., Felix, G. & Nürnberger, T.;Bacteria-derived peptidoglycans constitute pathogen-associated molecular patterns triggering innate immunity in Arabidopsis.;J. Biol. Chem.;282(44);282(44);;32338-48;2007 Forgan, A.H., Knogge, W. & Anderson, P.A.;Asexual genetic exchange in the barley pathogen <i>Rhynchosporium secalis</i>Phytopathology;97;0;;650-654;2007 Knogge, W. & Scheel, D.;LysM receptors recognize friend and foe;PNAS;103;0;;10829-10830;2006 Lübken, T., Arnold, N., Wessjohann, L., Böttcher, C. & Schmidt, J.;Analysis of fungal cyclopentenone derivatives from Hygrophorus spp. by liquid chromatography/electrospray-tandem mass spectrometry.;J Mass Spectrom.;41;0;;361-71;2006 Roth, U., von Roepenack-Lahaye, E. & Clemens, S.;Proteome changes in <span>Arabidopsis thaliana</span> roots upon exposure to Cd<sup>2+</sup>J. Exp. Bot.;57;0;;4003–4013;2006 Sarret, G., Harada, E., Choi, Y.-E., Isaure, M.-P., Geoffroy, N., Fakra, S., Marcus, M.A., Birschwilks, M., Clemens, S. & Manceau, A.;Trichomes of Tobacco Excrete Zinc as Zinc-Substituted Calcium Carbonate and other Zinc-Containing Compounds<sup>1[W]</sup>Plant Physiology ;141;0;;1021-1034;2006 Clemens, S.;Toxic metal accumulation, responses to exposure and mechanisms of tolerance in plants;Biochimie;88;0;;1707-1719;2006 Birschwilks, M., Haupt, S., Hofius, D. & Neumann, S.;Transfer of phloem-mobile substances from the host plants to the holoparasite <i>Cuscuta</i> sp.;Journal of Experimental Botany;4;0;;911-921;2006 Trampczynska, A., Böttcher, C. & Clemens, S.;The transition metal chelator nicotianamine is synthesized by filamentous fungi;FEBS Letters ;580;0;;3173-3178;2006 Halim, V.A., Vess, A., Scheel, D. & Rosahl, S.;The role of salicylic acid and jasmonic acid in pathogen defence;Plant Biology;8;0;;307-313;2006 Qutob, D., Kemmerling, B., Brunner, F., Küfner, I., Engelhardt, S., Gust, A.A., Luberacki, B., Seitz, H.U., Stahl, D., Rauhut, T., Glawischnig, E., Schween, G., Lacombe, B., Watanabe, N., Lam, E., Schlichting, R., Scheel, D., Nau, K., Dodt, G. & Hubert, D.;Phytotoxicity and innate immune responses induced by NEP1-like proteins;Plant Cell ;18;0;;3721-3744;2006 Clemens, S.;Evolution and function of phytochelatin synthases;Journal of Plant Physiology ;163;0;;319-332;2006 Clemens, S., Böttcher, C., Franz, M., Willscher, E., von Roepenack-Lahaye, E. & Scheel, D.;Capillary HPLC coupled to electrospray ionization quadrupole time-of-flight mass spectrometry;Plant Metabolomics;0;0;;65-79;2006 Weber, M., Trampczynska, A. & Clemens, S.;Comparative transcriptome analysis of toxic metal responses in <i>Arabidopsis thaliana</i> and the Cd<sup>2+</sup>-hypertolerant facultative metallophyte <i>Arabidospsis halleri</i>Plant, Cell and Environ ;29;0;;950-963;2006 Consonni, C., Humphry, M.E., Hartmann, H.A., Livaja, M., Durner, J., Westphal, L., Vogel, J., Lipka, V., Kemmerling, B., Schulze-Lefert, P., Somerville, S.C. & Panstruga, R.;Conserved requirement for a plant host cell protein in powdery mildew pathogenesis;Nat. Genet;38;0;;716-20;2006 Hamel, L.P., Nicole, M.C., Sritubtim, S., Morency, M.J., Ellis, M., Ehlting, J., Beaudoin, N., Barbazuk, B., Klessig, D., Lee, J., Martin, G., Mundy, J., Ohashi, Y., Scheel, D., Sheen, J., Xing, T., Zhang, S., Seguin, A. & Ellis, B.E.;Ancient signals: comparative genomics of plant MAPK and MAPKK gene families;Trends Plant Sci;11;0;;192-198;2006 Overmyer, K., Brosché, M, Pellinen, R., Kuittinen, T., Tuominen, H., Ahlfors, R., Keinänen, M., Saarma, M., Scheel, D. & Kangasjärvi, J.;Ozone-induced programmed cell death in the Arabidopsis radical-induced cell death1 mutant;Plant Physiol;137;0;;1092–1104;2005 Lipka, V., Dittgen, J., Bednarek, P., Bhat, R., Wiermer, M., Stein, M., Landtag, J., Brandt, W., Rosahl, S., Scheel, D., Llorente, F., Molina, A., Parker, J., Somerville, S. & Schulze-Lefert, P.;Pre- and postinvasion defenses both contribute to nonhost resistance in Arabidopsis;Science ;310;0;;1180-1183;2005 Prost, I., Dhondt, S., Rothe, G., Vicente, J., Rodriguez, M.J., Kift, N., Carbonne, F., Griffith, G., Esquerré-Tugayé, M.T., Rosahl, S., Castresana, C., Hamberg, M. & Fournier, J.;Evaluation of the anti-microbial activities of plant oxylipins supports their involvement in defense against pathogens;Plant Physiol.;139;0;;1902-1913;2005 Racapé, J., Belbahri, L., Engelhardt, S., Lacombe, B., Lee, J., Lochman, J., Marais, A., Nicole, M., Nürnberger, T., Parlange, F., Puverel, S. & Keller, H.;Ca<sup>2+</sup>-dependent lipid binding and membrane integration of PopA, a harpin-like elicitor of the hypersensitive response in tobacco;Mol Microbiol.;58;0;;1406-1420;2005 Krämer, U. & Clemens, S.;Functions and Homeostasis of Zinc, Copper and Nickel in plants;Springer;0;Topics in Current Genetics 14;;215-271;2005 Feilner,T., Hultschig, C., Lee, J., Meyer, S., Immink, R.G., Koenig, A., Possling, A., Seitz, H., Beveridge, A., Scheel, D., Cahill,D.J., Lehrach, H., Kreutzberger, J. & Kersten, B.;High-throughput identification of potential Arabidopsis MAP kinases substrates;Mol Cell Proteomics;4;0;;1558-1568;2005 Li, C.-M., Haapalainen, M., Lee, J., Nürnberger, T., Romantschuk, M. & Taira, S.;Harpin of <EM>Pseudomonas syringae</EM> pv. phaseolicola harbors a protein binding site;Mol. Plant Microbe Interact.;18;0;;60 - 66;2005 von Röpenack-Lahaye, E., Degenkolb, T., Zerjesky, M., Franz, M., Roth, U., Wessjohann, L.A., Schmidt, J., Scheel, D. & Clemens, S.;Profiling of Arabidopsis secondary metabolites by capillary liquid chromatography coupled to electrospray ionization quadrupole time-of-flight mass spectrometry;Plant Physiol;134;0;;548-559;2004 Harada, E., von Roepenack-Lahaye, E. & Clemens, S.;A cyanobacterial protein with similarity to phytochelatin synthases catalyzes the conversion of glutathione to g -glutamylcysteine and lacks phytochelatin synthase activity;Phytochemistry;65;0;;3179-3185;2004 Ahlfors, R., Macioszek, V., Rudd, J., Brosché, M., Schlichting, R., Scheel, D. & Kangasajärvi, J.;Stress hormone-independent activation and nuclear translocation of mitogen-activated protein kinases (MAPKs) in <EM>Arabidopsis thaliana</EM> during ozone exposure;Plant J.;40;0;;512-522;2004 Halim, V., Hunger, A., Macioszek, V., Landgraf, P., Nürnberger, T., Scheel, D. & Rosahl, S.;The oligopeptide elicitor Pep-13 induces salicylic acid-dependent and -independent defense reactions in potato;Physiol. Mol. Plant Pathol.;64;0;;311-318;2004 Nickstadt, A., Thomma, B.P.H.J., Feussner, I., Kangasjärvi, J., Zeier, J., Loeffler, C., Scheel, D. & Berger, S.;The jasmonate-insensitive mutant jin1 shows increased resistance to biotrophic as well as necrotrophic pathogens;Mol. Plant Pathol.;5;0;;425-434;2004 Scheel, D. & Nürnberger, T.;Signal transduction in plant defense responses;The Haworth Press, Inc., Binghamton, USA;0;Fungal Disease Resistance in Plants. Biochemistry, Molecular Biology, and Genetic Engineering;;1-30;2004 Rosahl, S. & Feussner, I.;Oxylipins;Blackwell Publishing, Oxford;0;Plant Lipids: Biology, Utilisation and Manipulation;;329-354;2004 Schürch, S., Linde, C.C., Knogge, W., Jackson, L.F. & McDonald, B.A.;Molecular population genetic analysis differentiates two virulence mechanisms of the fungal avirulence gene NIP1;Mol. Plant-Microbe Interact.;17;0;;1103-1113;2004 Gao, L.L., Knogge, W., Delp, G., Smith, F.A. & Smith, S.E.;Expression patterns of defense-related genes in different types of arbuscular mycorrhizal (AM) development in wild-type and mycorrhiza-defective mutant of tomato;Mol. Plant-Microbe Interact.;17;0;;1114-1125;2004 Takeda, S., Tadele, Z., Hofmann, I., Probst, A.V., Angelis, K.J., Kaya, H., Araki, T., Mengiste, T., Mittelsten-Scheid, O., Shibahara, K., Scheel, D. & Paszkowski, J.;BRU1, a novel link between responses to DNA damage and epigenetic gene silencing in Arabidopsis;Genes & Development;18;0;;782-793;2004 Weber, M., Harada, E., Vess, C., von Roepenack-Lahaye, E. & Clemens, S.;Comparative microarray analysis of <EM>Arabidopsis thaliana</EM> and <EM>Arabidopsis halleri</EM> roots identifies nicotianamine synthase, a ZIP transporter and other genes as potential metal hyperaccumulation factors;Plant Journal;37;0;;269-281;2004 Lee, J., Rudd, J.J., Macioszek, V.K. & Scheel, D.;Dynamic changes in the localization of MAP kinase cascade components controlling pathogenesis-related (PR) gene expression during innate immunity in parsley;J. Biol. Chem.;279;0;;22440-22448;2004 Varet, A., Hause, B., Hause, G., Scheel, D. & Lee, J.;The Arabidopsis NHL3 gene encodes a plasma membrane protein and its overexpression correlates with increased resistance to Pseudomonas syringae pv. tomato DC3000;Plant Physiol.;132;0;;2023-2033;2003 Clemens, S. & Simm, C.;<em>Schizosaccharomyces pombe</em> as a model for metal homeostasis in plant cells: the phytochelatin-dependent pathway is the main Cd detoxification mechanism;New Phytol.;159;0;;323-329;2003 Clemens, S., Thomine, S. & Schroeder, J.I.;Molecular mechanisms that control plant tolerance to heavy metals and possible roles towards manipulating metal accumulation;Plant Biotechnology and Transgenic Plants;0;Plant Biotechnology and Transgenic Plants;;665-691;2003 Lee, J. & Nürnberger, T.;Is pore formation activity of HrpZ required for defence activation in plant cells? <i>Pseudomonas syringae</i> pathovars and related pathogens;Kluwer Academic Publishers Dordrecht;10;Developments in Plant Pathology;;165-173;2003 Clemens, S., Simm, C. & Maier, T.;Heavy metal binding proteins and peptides;Biopolymers, Wiley-VCH;8;Polyamides and complex proteinaceous materials II;;255-288;2003 van't Slot, K.A.E, van den Burg, H.A., Kloks, C.P.A.M., Hilbers, C.W., Knogge, W. & Papavoine, C.H.M.;Solution structure of the fungal disease resistance-triggering protein NIP1 from the fungus <EM>Rhynchosporium secalis</EM> shows a novel b-sheet fold;J. Biol. Chem.;278;0;;45730-45736;2003 Göbel, C., Feussner, I. & Rosahl, S.;Lipid Peroxidation during the hypersensitive response in potato in the absence of 9-lipoxygenases;J. Biol. Chem.;278;0;;52834-52840;2003 Kroj, T., Rudd, J.J., Nürnberger, T., Gäbler, Y., Lee, J. & Scheel, D.;Mitogen-activated protein kinases play an essential role in oxidative burst-independent expression of pathogenesis-related genes in parsley;J. Biol. Chem.;278;0;;2256-2264;2003 Maier, T., Yu, C., Küllertz, G. & Clemens, S.;Lokalization and functional characterization of metal-binding sites in phytochelatin synthases;Planta;218;0;;300-308;2003 Wysocki, R., Clemens, S., Augustyniak, D., Golik, P., Maciaszczyk, E., Tamás, M.J. & Dziadkowiec, D.;Metalloid tolerance based on phytochelatins is not functionally equivalent to the arsenite transporter Acr3p;Biochem. Biophys. Res. Commun.;304;0;;293-300;2003 Scheel, D., Handmann, F., Lee, J., Rudd, J.J. & Zinecker, H.;Oxidative burst in plant defense;Free Radical Research;37:;0;;5-5;2003 Steiner-Lange, S., Fischer, A., Böttcher, A., Rouhara, I., Liedgens, H., Schmelzer, E. & Knogge, W.;Differential defense reactions in leaf tissue of barley in response to infection by <EM>Rhynchosporium secalis</EM> and to treatment with a fungal avirulence gene product;Mol. Plant-Microbe Interact.;16;0;;893-902;2003 Genger, R.K., Brown, A.H.D., Knogge, W., Nesbitt, K. & Burdon, J.J.;Development of SCAR markers linked to a scald resistance gene derived from wild barley;Euphytica;134;0;;149-159;2003 Markovic-Housley, Z., Degano, M., Lamba, D., von Roepenack-Lahaye, E., Clemens, S., Susani, M., Ferreira, F., Scheiner, O. & Breiteneder, H.;Crystal structure of a hypoallergenic isoform of the major birch pollen allergen Bet v 1 and its likely biological function as a plant steroid carrier;J. Mol. Biol.;325;0;;123-133;2003 Scheel, D. & Wasternack, C.;Signal transduction in plants: Cross-talk with the environment;University Press, Oxford, UK;0;Plant Signal Transduction;;1-5;2002 Knogge, W.;Avirulence determinants and elicitors;Springer-Verlag, Berlin;0;The Mycota, Vol. XI: Agricultural Applications;;289-310;2002 Brunner, F., Rosahl, S., Lee, J., Rudd, J.J., Geiler, C., Kauppinen, S., Rasmussen, G., Scheel, D. & Nürnberger, T.;Pep-13, a plant defense-inducing pathogen-associated pattern from <em>Phytophthora transglutaminases</em>EMBO J;21;0;;6681-6688;2002 Landtag, J., Baumert, A., Degenkolb, T., Schmidt, J., Wray, V., Scheel, D., Strack, D. & Rosahl, S.;Accumulation of tyrosol glucoside in transgenic potato plants expressing a parsley tyrosine decarboxylase;Phytochemistry;60;0;;683-689;2002 Landgraf, P., Feussner, I., Hunger, A., Scheel, D. & Rosahl, S.;Systemic accumulation of 12-oxo-phytodienoic acid in SAR-induced potato plants;Europ J Plant Pathol;0;0;;279-283;2002 Scheel, D.;Oxidative burst and the role of reactive oxygen species in plant-pathogen interactions;Taylor & Francis, London, UK;0;Oxidative Stress in Plants;;137-153;2002 Ichimura, K., Shinozaki, K., Tena, G., Sheen, J., Henry, Y., Champion, A., Kreis, M., Zhang, S., Hirt, H., Wilson, C., Heberle-Bors, E., Ellis, B.E., Morris, P.C., Innes, R.W., Ecker, J.R., Scheel, D., Klessig, D.F., Machida,Y., Mundy, J., Ohashi, Y. & Walker, J.C.;Mitogen-activated protein kinase cascades in plants: a new nomenclature;Trends Plant Sci.;7;0;;301-308;2002 Varet, A., Parker, J., Tornero, P., Nass, N., Nürnberger, T., Dangl, J.L., Scheel, D. & Lee, J.;NHL25 and NHL3, two NDR1/HIN1-like genes in <EM>Arabidopsis thaliana</em> with potential role(s) in plant defense;Molec. Plant-Microbe Interact.;15;0;;608-616;2002 Göbel, C., Feussner, I., Hamberg, M. & Rosahl, S.;Oxylipin profiling in pathogen-infected potato leaves;Biochim Biophys Acta Mol Cell Biol Lipids;1584;0;;55-64;2002 Lee, J. & Rudd, J.J.;Calcium-dependent protein kinases: versatile plant signalling components necessary for pathogen defence;Trends Plant Sci;7;0;;97-98;2002 Bloss, T., Clemens, S. & Nies, D.H.;Characterization of the ZAT1p zinc transporter from <EM>Arabidopsis thaliana</EM> in microbial model organisms and reconstituted proteoliposomes;Planta;214;0;;783-791;2002 Fiegen, M. & Knogge, W.;Amino acid alterations in isoforms of the effector protein NIP1 from <EM>Rhynchosporium secalis</EM> have similar effects on its different activities in barley;Physiol. Mol. Plant Pathol;61;0;;299-302 ;2002 Brunner, F., Wirtz, W., Rose, J.K.C., Darvill, A.G., Govers, F., Scheel, D. & Nürnberger, T.;A ß-glucosidase/xylosidase from the phytopathogenic oomycete, <EM>Phytophthora infestans</em>Phytochemistry;59;0;;689-696;2002 Clemens, S., Bloss, T., Vess, C., Neumann, D., Nies, D.H. & zur Nieden, U.;A transporter in the endoplasmic reticulum of <EM>Schizosaccharomyces pombe</EM> cells mediates zinc storage and differentially affects transition metal tolerance;J. Biol. Chem.;277;0;;18215-18221;2002 van t Slot, K.A.E. & Knogge, W.;A dual role of microbial pathogen-derived effector proteins in plant disease and resistance;Crit. Rev. Plant Sci;12;0;;229-271;2002 Petters, J., Göbel, C., Scheel, D. & Rosahl, S.;A pathogen-responsive cDNA from potato encodes a protein with homology to a phosphate-starvation induced phosphatase;Plant Cell Physiol;43;0;;1049-1053;2002 Clemens, S., Palmgren, M.G. & Krämer, U.;A long way ahead: understanding and engineering plant metal accumulation;Trends Plant Sci.;7;0;;309-315;2002 Clemens, S., Schroeder, J.I. & Degenkolb, T.;Caenorhabditis elegans expresses a functional phytochelatin synthase;Eur. J. Biochem.;268;0;;3640-3643;2001 Cazalé, A.C. & Clemens, S.;<em>Arabidopsis thaliana</em> expresses a second functional phytochelatin synthase;FEBS Lett.;507;0;;215-219;2001 Sakaki, T., Zähringer, U., Warnecke, D.C., Fahl, A., Knogge, W. & Heinz, E.;Sterol glycosides and cerebrosides accumulate in <EM>Pichia pastoris</EM>, <EM>Rhynchosporium secalis</EM>, and other fungi under normal conditions or under heat shock and ethanol stress;Yeast;18;0;;679-695 ;2001 Nürnberger, T. & Scheel, D.;Signal transmission in the plant immune response;Trends in Plant Science;6;0;;372-379;2001 Clemens, S.;Molecular mechanisms of plant metal homeostasis and tolerance;Planta;212;0;;475-486;2001 Göbel, C., Feussner, I., Schmidt, A., Scheel, D., Sanchez-Serrano, J., Hamberg, M. & Rosahl, S.;Oxylipin profiling reveals the preferential stimulation of the 9-lipoxygenase pathway in elicitor-treated potato cells;J Biol Chem;276;0;;6267-6273;2001 Clemens, S.;Developing tools for phytoremediation: towards a molecular understanding of plant metal tolerance and accumulation;Int. J. Occup. Med. Environm. Health;14;0;;235-239;2001 Lee, J., Klüsener, B., Tsiamis, G., Stevens, C., Neyt, C, Tampakaki, A.P., Panopoulos, N.J., Nöller, J., Weiler, E.W., Cornelis, G.R., Mansfield, J.W. & Nürnberger, T.;HrpZPsph from the plant pathogen <EM>Pseudomonas syringae</EM> pv. phaseolicola is exported by the type III secretion pathway and forms an ion-conducting pore in vitro;Proc. Natl. Acad. Sci. U.S.A.;98;0;;289-294;2001 Nass, N. & Scheel, D.;Enhanced luciferin entry causes rapid wound-induced light emission in plants expressing high levels of luciferase;Planta;212:;0;;149-154;2001 Stumpe, M., Kandzia, R., Göbel, C., Rosahl, S. & Feussner, I.;A pathogen-inducible divinyl ether synthase (CYP74D) from elicitor-treated potato suspension cells;FEBS Lett;507;0;;371-376;2001 Lee, J., Klessig, D.F. & Nürnberger, T.;A harpin binding site in tobacco plasma membranes mediates activation of the pathogenesis-related gene HIN1 independent of extracellular calcium but dependent on mitogen-activated protein kinase activity;Plant Cell;13;0;;1079-1093;2001 Scheel, D., Blume, B., Brunner, F., Fellbrich, G., Dalbøge, H., Hirt, H., Kauppinen, S., Kroj, T., Ligterink, W., Nürnberger, T., Tschöpe, M., Zinecker, H. & zur Nieden, U.;Receptor-mediated signal transduction in plant defense;International Society for Molecular Plant-Microbe Interactions, St. Paul, U.S.A.;2;Biology of Plant-Microbe Interactions,;;131-135;2000 Hirt, H. & Scheel, D.;Receptor-mediated MAP kinase activation in plant defense;Springer-Verlag, Heidelberg;27;MAP Kinases in Plant Signal Transduction. Results and Problems in Cell Differentiation;;85-93;2000 Bruns, I., Sutter, K., Neumann, D. & Krauss, G.-J.;Glutathione accumulation a specific response of mosses to heavy metal stress;Sulfur Nutrition and sulfur assimilation in higher plants., Paul Haupt;0;0;;389391;2000 Blume, B., Nürnberger, T., Nass, N. & Scheel, D.;Receptor-mediated increase in cytoplasmic free calcium required for activation of pathogen defense in parsley;Plant Cell;12:;0;;1425-1440;2000 Noehringer, C., Scheel, D. & Blée, E.;Lipoxygenase isoforms in elicitor-treated parsley cell suspension cultures;Biochem. Society Transact.;28;0;;827-829;2000 Scheel, D.;Parasitismus im Pflanzenreich;Nova Acta Leopoldina NF 83;Nr. 316;0;;25-31;2000 Hornung, E., Rosahl, S., Kühn, H. & Feussner, I.;Creating lipoxygenases with new positional specificities by site-directed mutagenesis;Biochem. Soc. Trans.;28;0;;825-826;2000 Schmidt, A., Grimm, R., Schmidt, J., Scheel, D., Strack, D. & Rosahl, S.;Cloning and expression of a potato cDNA encoding hydroxycinnamoyl-CoA:tyramine hydroxycinnamoyl- transferase;J Biol Chem;274;0;;4273-4280;1999 Weiss, M., Schmidt, J., Neumann, D., Wray, V., Christ, R. & Strack, D.;Phenylpropanoids in mycorrhizas of the Pinaceae;Planta;208;0;;491-502;1999 Clemens, S., Kim, E.J., Neumann, D. & Schroeder, J.I.;Tolerance to toxic metals by a gene family of phytochelatin synthases from plants and yeast;EMBO J.;18;0;;33253333;1999 Wollgiehn, R. & Neumann, D.;Metal stress response and tolerance of cultured cells from <EM>Silene vulgaris</EM> and <EM>Lycopersicon peruvianum</EM>: Role of heat stress proteins;J. Plant Physiol.;154;0;;547553;1999 Leopold, I., Günther, D., Schmidt, J. & Neumann, D.;Phytoalexins and heavy metal tolerance;Phytochemistry;50;0;;13231328;1999 Baizabal-Aguirre, V.M., Clemens, S., Uozumi, N. & Schroeder, J.I.;Suppression of inward-rectifying K+ channels KAT1 and AKT2 by dominant negative point mutations in the KAT1 alpha-subunit;J. Membr. Biol.;167;0;;119125;1999 Bringezu, K., Lichtenberger, O., Leopold, I. & Neumann, D.;Heavy metal tolerance of <EM>Silene vulgaris</EM>J. 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