Publikationen von Gunther Doehlemann

Oekmen, B.; Schwammbach, D.; Bakkeren, G.; Neumann, U.; Doehlemann, G.: The Ustilago hordei-Barley interaction is a versatile system for characterization of fungal effectors. Journal of Fungi 7 (2), 86 (2021)

Villamil, J. C. M.; Mueller, A. N.; Demir, F.; Meyer, U.; Oekmen, B.; Hueynck, J. S.; Breuer, M.; Dauben, H.; Win, J.; Huesgen, P. F. et al.; Doehlemann, G.: A fungal substrate mimicking molecule suppresses plant immunity via an inter-kingdom conserved motif. NATURE COMMUNICATIONS 10, 1576 (2019)

Okmen, B.; Mathow, D.; Hof, A.; Lahrmann, U.; Assmann, D.; Doehlemann, G.: Mining the effector repertoire of the biotrophic fungal pathogen Ustilago hordei during host and non-host infection. MOLECULAR PLANT PATHOLOGY 19 (12), S. 2603 - 2622 (2018)

Brych, A.; Mascarenhas, J.; Jaeger, E.; Charkiewicz, E.; Pokorny, R.; Bölker, M.; Doehlemann, G.; Batschauer, A.: White collar 1-induced photolyase expression contributes to UV-tolerance of Ustilago maydis. Microbiologyopen 5 (2), S. 224 - 243 (2016)

Redkar, A.; Villajuana- Bonequi, M.; Doehlemann, G.: Conservation of the Ustilago maydis effector See1 in related smuts. Plant Signaling & Behavior 10 (12), e1086855 (2015)

Hemetsberger, C.; Mueller, A.; Matei, A.; Herrberger, C.; Hensel, G.; Kumlehn, J.; Mishra, B.; Sharma, R.; Thines, M.; Huckelhoven, R. et al.; Doehlemann, G.: The fungal core effector Pep1 is conserved across smuts of dicots and monocots. New Phytologist 206 (3), S. 1116 - 1126 (2015)

Redkar, A.; Hoser, R.; Schilling, L.; Zechmann, B.; Krzymowska, M.; Walbot, V.; Doehlemann, G.: A Secreted Effector Protein of Ustilago maydis Guides Maize Leaf Cells to Form Tumors. Plant Cell 27 (4), S. 1332 - 1351 (2015)

Doehlemann, G.; Requena, N.; Schaefer, P.; Brunner, F.; O'Connell, R.; Parker, J.: Reprogramming of plant cells by filamentous plant-colonizing microbes. New Phytologist 204 (4), S. 803 - 814 (2014)

Schilling, L.; Matei, A.; Redkar, A.; Walbot, V.; Doehlemann, G.: Virulence of the maize smut Ustilago maydis is shaped by organ-specific effectors. Molecular Plant Pathology 15 (8), S. 780 - 789 (2014)

Oekmen, B.; Doehlemann, G.: Inside plant: biotrophic strategies to modulate host immunity and metabolism. Current Opinion in Plant Biology 20, S. 19 - 25 (2014)

Brefort, T.; Tanaka, S.; Neidig, N.; Doehlemann, G.; Vincon, V.; Kahmann, R.: Characterization of the Largest Effector Gene Cluster of Ustilago maydis. PLoS Pathogens 10 (7), e1003866 (2014)

Hof, A.; Zechmann, B.; Schwammbach, D.; Huckelhoven, R.; Doehlemann, G.: Alternative Cell Death Mechanisms Determine Epidermal Resistance in Incompatible Barley-Ustilago Interactions. Molecular Plant-Microbe Interactions 27 (5), S. 403 - 414 (2014)

Doehlemann, G.; Schirawski, J.; Kamper, J.: Functional Genomics of Smut Fungi: From Genome Sequencing to Protein Function. FUNGI, S. 143 - 172 (2014)

Rabe, F.; Ajami-Rashidi, Z.; Doehlemann, G.; Kahmann, R.; Djamei, A.: Degradation of the plant defence hormone salicylic acid by the biotrophic fungus Ustilago maydis. Molecular Microbiology 89 (1), S. 179 - 188 (2013)

Doehlemann, G.; Hemetsberger, C.: Apoplastic immunity and its suppression by filamentous plant pathogens. New Phytologist 198 (4), S. 1001 - 1016 (2013)

Mueller, A. N.; Ziemann, S.; Treitschke, S.; Assmann, D.; Doehlemann, G.: Compatibility in the Ustilago maydis-Maize Interaction Requires Inhibition of Host Cysteine Proteases by the Fungal Effector Pit2. PLoS Pathogens 9 (2), e1003177 (2013)

Hemetsberger, C.; Herrberger, C.; Zechmann, B.; Hillmer, M.; Doehlemann, G.: The Ustilago maydis Effector Pep1 Suppresses Plant Immunity by Inhibition of Host Peroxidase Activity. PLoS Pathogens 8 (5), e1002684 (2012)

Meier, K.; Mathieu, E. L.; Finkernagel, F.; Reuter, L. M.; Scharfe, M.; Doehlemann, G.; Jarek, M.; Brehm, A.: LINT, a Novel dL(3)mbt-Containing Complex, Represses Malignant Brain Tumour Signature Genes. PLoS Genetics 8 (5), e1002676 (2012)

van der Linde, K.; Hemetsberger, C.; Kastner, C.; Kaschani, F.; van der Hoorn, R. A. L.; Kumlehn, J.; Doehlemann, G.: A Maize Cystatin Suppresses Host Immunity by Inhibiting Apoplastic Cysteine Proteases. Plant Cell 24 (3), S. 1285 - 1300 (2012)

van der Linde, K.; Mueller, A. N.; Hemetsberger, C.; Kashani, F.; van der Hoorn, R. A.L.; Doehlemann, G.: The maize cystatin CC9 interacts with apoplastic cysteine proteases. Plant Signalling & Behavior 7 (11), S. 1397 - 1401 (2012)