Gunther Doehlemann
Gunther Doehlemann
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Ustilago maydis as a Pathogen
T Brefort, G Doehlemann, A Mendoza-Mendoza, S Reissmann, A Djamei, ...
Annual review of phytopathology 47, 423-445, 2009
Pep1, a Secreted Effector Protein of Ustilago maydis, Is Required for Successful Invasion of Plant Cells
G Doehlemann, K Van Der Linde, D Aßmann, D Schwammbach, A Hof, ...
PLoS pathogens 5 (2), e1000290, 2009
Reprogramming a maize plant: transcriptional and metabolic changes induced by the fungal biotroph Ustilago maydis
G Doehlemann, R Wahl, RJ Horst, LM Voll, B Usadel, F Poree, M Stitt, ...
The Plant Journal 56 (2), 181-195, 2008
The Ustilago maydis Effector Pep1 Suppresses Plant Immunity by Inhibition of Host Peroxidase Activity
C Hemetsberger, C Herrberger, B Zechmann, M Hillmer, G Doehlemann
PLoS pathogens 8 (5), e1002684, 2012
Pathogenicity determinants in smut fungi revealed by genome comparison
J Schirawski, G Mannhaupt, K Münch, T Brefort, K Schipper, ...
Science 330 (6010), 1546-1548, 2010
Compatibility in the Ustilago maydis–Maize Interaction Requires Inhibition of Host Cysteine Proteases by the Fungal Effector Pit2
AN Mueller, S Ziemann, S Treitschke, D Aßmann, G Doehlemann
PLoS pathogens 9 (2), e1003177, 2013
Different signalling pathways involving a Gα protein, cAMP and a MAP kinase control germination of Botrytis cinerea conidia
G Doehlemann, P Berndt, M Hahn
Molecular microbiology 59 (3), 821-835, 2006
Maize tumors caused by Ustilago maydis require organ-specific genes in host and pathogen
DS Skibbe, G Doehlemann, J Fernandes, V Walbot
Science 328 (5974), 89-92, 2010
Plant pathogenic fungi
G Doehlemann, B Ökmen, W Zhu, A Sharon
Microbiology spectrum 5 (1), 5.1. 14, 2017
Apoplastic immunity and its suppression by filamentous plant pathogens
G Doehlemann, C Hemetsberger
New Phytologist 198 (4), 1001-1016, 2013
Two linked genes encoding a secreted effector and a membrane protein are essential for Ustilago maydis‐induced tumour formation
G Doehlemann, S Reissmann, D Aßmann, M Fleckenstein, R Kahmann
Molecular microbiology 81 (3), 751-766, 2011
Establishment of compatibility in the Ustilago maydis/maize pathosystem
G Doehlemann, R Wahl, M Vranes, RP de Vries, J Kämper, R Kahmann
Journal of plant physiology 165 (1), 29-40, 2008
A Secreted Effector Protein of Ustilago maydis Guides Maize Leaf Cells to Form Tumors
A Redkar, R Hoser, L Schilling, B Zechmann, M Krzymowska, V Walbot, ...
The Plant Cell 27 (4), 1332-1351, 2015
A maize cystatin suppresses host immunity by inhibiting apoplastic cysteine proteases
K van der Linde, C Hemetsberger, C Kastner, F Kaschani, ...
The Plant Cell 24 (3), 1285-1300, 2012
Papain‐like cysteine proteases as hubs in plant immunity
JC Misas‐Villamil, RAL van der Hoorn, G Doehlemann
New Phytologist 212 (4), 902-907, 2016
Maize death acids, 9-lipoxygenase–derived cyclopente (a) nones, display activity as cytotoxic phytoalexins and transcriptional mediators
SA Christensen, A Huffaker, F Kaplan, J Sims, S Ziemann, G Doehlemann, ...
Proceedings of the National Academy of Sciences 112 (36), 11407-11412, 2015
Characterization of the Largest Effector Gene Cluster of Ustilago maydis
T Brefort, S Tanaka, N Neidig, G Doehlemann, V Vincon, R Kahmann
PLoS pathogens 10 (7), e1003866, 2014
Ustilago maydis Infection Strongly Alters Organic Nitrogen Allocation in Maize and Stimulates Productivity of Systemic Source Leaves
RJ Horst, G Doehlemann, R Wahl, J Hofmann, A Schmiedl, R Kahmann, ...
Plant physiology 152 (1), 293-308, 2010
The fungal core effector P ep1 is conserved across smuts of dicots and monocots
C Hemetsberger, AN Mueller, A Matei, C Herrberger, G Hensel, ...
New Phytologist 206 (3), 1116-1126, 2015
Degradation of the plant defence hormone salicylic acid by the biotrophic fungus Ustilago maydis
F Rabe, Z Ajami‐Rashidi, G Doehlemann, R Kahmann, A Djamei
Molecular Microbiology 89 (1), 179-188, 2013
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