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4. Maize death acids, 9-lipoxygenase–derived cyclopente(a)nones, display activity as cytotoxic phytoalexins and transcriptional mediators

Author

Christensen, Shawn A, Huffaker, Alisa, Kaplan, Fatma, Sims, James, Ziemann, Sebastian, Doehlemann, Gunther, Ji, Lexiang, Schmitz, Robert J, Kolomiets, Michael V, Alborn, Hans T, Mori, Naoki, Jander, Georg, Ni, Xinzhi, Sartor, Ryan C, Byers, Sara, Abdo, Zaid, and Schmelz, Eric A

Subjects
Ascomycota, Cyclopentanes, Cystatins, Gene Expression Profiling, Gene Expression Regulation, Plant, Host-Pathogen Interactions, Immunoblotting, Lipoxygenase, Magnetic Resonance Spectroscopy, Molecular Structure, Oligonucleotide Array Sequence Analysis, Oxylipins, Plant Diseases, Plant Leaves, Plant Proteins, Reverse Transcriptase Polymerase Chain Reaction, Sesquiterpenes, Zea mays, Phytoalexins, oxylipin, 9-lipoxygenase, 10-oxo-11-phytoenoic acid, maize, defense
Abstract

Plant damage promotes the interaction of lipoxygenases (LOXs) with fatty acids yielding 9-hydroperoxides, 13-hydroperoxides, and complex arrays of oxylipins. The action of 13-LOX on linolenic acid enables production of 12-oxo-phytodienoic acid (12-OPDA) and its downstream products, termed "jasmonates." As signals, jasmonates have related yet distinct roles in the regulation of plant resistance against insect and pathogen attack. A similar pathway involving 9-LOX activity on linolenic and linoleic acid leads to the 12-OPDA positional isomer, 10-oxo-11-phytodienoic acid (10-OPDA) and 10-oxo-11-phytoenoic acid (10-OPEA), respectively; however, physiological roles for 9-LOX cyclopentenones have remained unclear. In developing maize (Zea mays) leaves, southern leaf blight (Cochliobolus heterostrophus) infection results in dying necrotic tissue and the localized accumulation of 10-OPEA, 10-OPDA, and a series of related 14- and 12-carbon metabolites, collectively termed "death acids." 10-OPEA accumulation becomes wound inducible within fungal-infected tissues and at physiologically relevant concentrations acts as a phytoalexin by suppressing the growth of fungi and herbivores including Aspergillus flavus, Fusarium verticillioides, and Helicoverpa zea. Unlike previously established maize phytoalexins, 10-OPEA and 10-OPDA display significant phytotoxicity. Both 12-OPDA and 10-OPEA promote the transcription of defense genes encoding glutathione S transferases, cytochrome P450s, and pathogenesis-related proteins. In contrast, 10-OPEA only weakly promotes the accumulation of multiple protease inhibitor transcripts. Consistent with a role in dying tissue, 10-OPEA application promotes cysteine protease activation and cell death, which is inhibited by overexpression of the cysteine protease inhibitor maize cystatin-9. Unlike jasmonates, functions for 10-OPEA and associated death acids are consistent with specialized roles in local defense reactions.

Published
2015

8. The fungal pathogen Ustilago maydis targets the maize corepressor RELK2 to modulate host transcription for tumorigenesis.

Author

Huang, Luyao, Ökmen, Bilal, Stolze, Sara Christina, Kastl, Melanie, Khan, Mamoona, Hilbig, Daniel, Nakagami, Hirofumi, Djamei, Armin, and Doehlemann, Gunther

Subjects
USTILAGO maydis, PLANT proteins, GENE regulatory networks, TRANSCRIPTION factors, GENETIC transcription regulation, CORN diseases
Abstract

Summary: Ustilago maydis is a biotrophic fungus that causes tumor formation on all aerial parts of maize. U. maydis secretes effector proteins during penetration and colonization to successfully overcome the plant immune response and reprogram host physiology to promote infection.In this study, we functionally characterized the U. maydis effector protein Topless (TPL) interacting protein 6 (Tip6). We found that Tip6 interacts with the N‐terminus of RELK2 through its two Ethylene‐responsive element binding factor‐associated amphiphilic repression (EAR) motifs. We show that the EAR motifs are essential for the virulence function of Tip6 and critical for altering the nuclear distribution pattern of RELK2.We propose that Tip6 mimics the recruitment of RELK2 by plant repressor proteins, thus disrupting host transcriptional regulation. We show that a large group of AP2/ERF B1 subfamily transcription factors are misregulated in the presence of Tip6.Our study suggests a regulatory mechanism where the U. maydis effector Tip6 utilizes repressive domains to recruit the corepressor RELK2 to disrupt the transcriptional networks of the host plant. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Many ways to TOPLESS – manipulation of plant auxin signalling by a cluster of fungal effectors

Author

Bindics, Janos, primary, Khan, Mamoona, additional, Uhse, Simon, additional, Kogelmann, Benjamin, additional, Baggely, Laura, additional, Reumann, Daniel, additional, Ingole, Kishor D., additional, Stirnberg, Alexandra, additional, Rybecky, Anna, additional, Darino, Martin, additional, Navarrete, Fernando, additional, Doehlemann, Gunther, additional, and Djamei, Armin, additional

Published
2022
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15. A conserved enzyme of smut fungi facilitates cell-to-cell extension in the plant bundle sheath

Author

Oekmen, Bilal, Jaeger, Elaine, Schilling, Lena, Finke, Natalie, Klemd, Amy, Lee, Yoon Joo, Wemhoener, Raphael, Pauly, Markus, Neumann, Ulla, Doehlemann, Gunther, Oekmen, Bilal, Jaeger, Elaine, Schilling, Lena, Finke, Natalie, Klemd, Amy, Lee, Yoon Joo, Wemhoener, Raphael, Pauly, Markus, Neumann, Ulla, and Doehlemann, Gunther

Abstract

Smut fungi secrete effector proteins that suppress host plant immunity. Here the authors show that the corn smut effector Erc1 has 1,3-beta-glucanase activity and promotes virulence in maize leaves by attenuating beta-glucan-induced defense responses. Smut fungi comprise one of the largest groups of fungal plant pathogens causing disease in all cereal crops. They directly penetrate host tissues and establish a biotrophic interaction. To do so, smut fungi secrete a wide range of effector proteins, which suppress plant immunity and modulate cellular functions as well as development of the host, thereby determining the pathogen's lifestyle and virulence potential. The conserved effector Erc1 (enzyme required for cell-to-cell extension) contributes to virulence of the corn smut Ustilago maydis in maize leaves but not on the tassel. Erc1 binds to host cell wall components and displays 1,3-beta-glucanase activity, which is required to attenuate beta-glucan-induced defense responses. Here we show that Erc1 has a cell type-specific virulence function, being necessary for fungal cell-to-cell extension in the plant bundle sheath and this function is fully conserved in the Erc1 orthologue of the barley pathogen Ustilago hordei.

Published
2022

16. Secreted Glycoside Hydrolase Proteins as Effectors and Invasion Patterns of Plant-Associated Fungi and Oomycetes

Author

Bradley, Ellie L., Oekmen, Bilal, Doehlemann, Gunther, Henrissat, Bernard, Bradshaw, Rosie E., Mesarich, Carl H., Bradley, Ellie L., Oekmen, Bilal, Doehlemann, Gunther, Henrissat, Bernard, Bradshaw, Rosie E., and Mesarich, Carl H.

Abstract

During host colonization, plant-associated microbes, including fungi and oomycetes, deliver a collection of glycoside hydrolases (GHs) to their cell surfaces and surrounding extracellular environments. The number and type of GHs secreted by each organism is typically associated with their lifestyle or mode of nutrient acquisition. Secreted GHs of plant-associated fungi and oomycetes serve a number of different functions, with many of them acting as virulence factors (effectors) to promote microbial host colonization. Specific functions involve, for example, nutrient acquisition, the detoxification of antimicrobial compounds, the manipulation of plant microbiota, and the suppression or prevention of plant immune responses. In contrast, secreted GHs of plant-associated fungi and oomycetes can also activate the plant immune system, either by acting as microbe-associated molecular patterns (MAMPs), or through the release of damage-associated molecular patterns (DAMPs) as a consequence of their enzymatic activity. In this review, we highlight the critical roles that secreted GHs from plant-associated fungi and oomycetes play in plant-microbe interactions, provide an overview of existing knowledge gaps and summarize future directions.

Published
2022

17. Many ways to TOPLESS - manipulation of plant auxin signalling by a cluster of fungal effectors

Author

Bindics, Janos, Khan, Mamoona, Uhse, Simon, Kogelmann, Benjamin, Baggely, Laura, Reumann, Daniel, Ingole, Kishor D., Stirnberg, Alexandra, Rybecky, Anna, Darino, Martin, Navarrete, Fernando, Doehlemann, Gunther, Djamei, Armin, Bindics, Janos, Khan, Mamoona, Uhse, Simon, Kogelmann, Benjamin, Baggely, Laura, Reumann, Daniel, Ingole, Kishor D., Stirnberg, Alexandra, Rybecky, Anna, Darino, Martin, Navarrete, Fernando, Doehlemann, Gunther, and Djamei, Armin

Abstract

Plant biotrophic pathogens employ secreted molecules, called effectors, to suppress the host immune system and redirect the host's metabolism and development in their favour. Putative effectors of the gall-inducing maize pathogenic fungus Ustilago maydis were analysed for their ability to induce auxin signalling in plants. Using genetic, biochemical, cell-biological, and bioinformatic approaches we functionally elucidate a set of five, genetically linked effectors, called Topless (TPL) interacting protein (Tips) effectors that induce auxin signalling. We show that Tips induce auxin signalling by interfering with central corepressors of the TPL family. CRISPR-Cas9 mutants and deletion strain analysis indicate that the auxin signalling inducing subcluster effectors plays a redundant role in virulence. Although none of the Tips seem to have a conserved interaction motif, four of them bind solely to the N-terminal TPL domain and, for Tip1 and Tip4, we demonstrate direct competition with auxin/indole-3-acetic acid transcriptional repressors for their binding to TPL class of corepressors. Our findings reveal that TPL proteins, key regulators of growth-defence antagonism, are a major target of the U. maydis effectome.

Published
2022

20. 2011 Report on the Annual Meeting of the Study Groups 'Host-Parasite Interactions' and 'Mycology'

Author

Cabello, Susana, Hofmann, Julia, Diez-de-Medina, Sergio, Silva, Herman, Conrath, Uwe, Kassemeyer, Hanns-Heinz, Peters, Franziska, Anwar, Shahbaz, Inselsbacher, Erich, Grundler, Florian MW, Müller, Florian, Thönnessen, Alexandra, Schlaich, Nikolaus, Gruhlke, Martin CH, Slusarenko, Alan J, Hemetsberger, Christoph, Herrberger, Christian, Doehlemann, Gunther, Hof, Alexander, Schwammbach, Daniela, Eichmann, Ruth, Hückelhoven, Ralph, Klasen, Christiane, Langenbach, Caspar, Campe, Ruth, Schaffrath, Ulrich, Goellner, Katharina, Krijger, Jorrit-Jan, Köllmer, Susanne, Deising, Holger B, Mielke, Mariela C, Ahmetovic, Ulrike, Dräger, Birgit, Müller, André, Treitschke, Steffi, Kaschani, Farnusch, van der Hoorn, Renier, Garcia, Ely Oliveira, Pleßmann, Janys, Friehe, Sven, Pooraiiouby, Rana, Schreiber, Miriam, Gruhlke, Martin, Meyer, Andreas J, Thomas, Martin, Beckers, Gerold, Harzen, Anne, Colby, Tom, Schmidt, Jürgen, van der Linde, Karina, Wieczorek, Krzysztof, Ashry, Abd El Naser El, Quentin, Michael, Seifert, Georg, Favery, Bruno, Grundler, Florian, Bohlmann, Holger, Miessner, Simone, Stammler, Gerd, Schmitz, Helena, Philippi, Jasmin Verena, Kohlndorfer, Matthias, Voegele, Ralf T, Linkmeyer, Andrea, Hess, Michael, Hausladen, Hans, Nechwatal, Jan, Hahn, Jörn, Schönborn, Alexander, Schmitz, Gregor, Berdugo, Carlos, Hillnhütter, Christian, Oerke, Erich-Christian, Sikora, Richard, Nyman, Marika, Weigand, Stephan, Perelló, Analia, Noll, Ulrike, Slusarenko, Alan J., Gerlach, Wolfgang W.P., Lehneis, T., Lauria-Pluschkell, Beatriz, Scheinpflug, Hans, and Steiner, Ulrike

Published
2011

22. Pathogenicity Determinants in Smut Fungi Revealed by Genome Comparison

Author

Schirawski, Jan, Mannhaupt, Gertrud, Münch, Karin, Brefort, Thomas, Schipper, Kerstin, Doehlemann, Gunther, Di Stasio, Maurizio, Rössel, Nicole, Mendoza-Mendoza, Artemio, Pester, Doris, Müller, Olaf, Winterberg, Britta, Meyer, Elmar, Ghareeb, Hassan, Wollenberg, Theresa, Münsterkötter, Martin, Wong, Philip, Walter, Mathias, Stukenbrock, Eva, Güldener, Ulrich, and Kahmann, Regine

Published
2010

24. Report on the Annual Meeting of the Study Groups 'Host-Parasite Interactions' and 'Mycology' 2010

Author

Albarouki, Emad, Deising, Holger B., Djulic, Alma, Vögele, Ralf T., Campe, Ruth, Schaffrath, Ulrich, Conrath, Uwe, Göllner, Katharina, Delventhal, Rhoda, Zellerhoff, Nina, Mogga, Valerie, Weidenbach, Denise, Andresen, Karsten, Thines, Eckhard, Langenbach, Caspar, Löhrer, Marco, Botterweck, Marco, Behr, Michael, Humbeck, Klaus, Hause, Gerd, Motyka, Vaclav, Wirsel, Stefan G.R., Leroch, Michaela, Kleber, Astrid, Coenen, Bettina, Peter, Christine, Hahn, Matthias, Beninweck, Ndambi, Heller, Annerose, Elzein, Abuelgasim, Cadisch, Georg, Neumann, Martin, Beckers, Gerold, Jaskiewicz, Michal, Liu, Yidong, Zhang, Shuqun, Pretsch, Klara, Geiger, Matthias, Kernen, Ariane, Kernen, Eric, Mendgen, Kurt, Voegele, Ralf Thomas, Treitschke, Steffi, Döhlemann, Gunther, Schuster, Martin, Martín-Urdíroz, Magdalena, Steinberg, Gero, Lang, Patrick, Link, Tobias, Voegele, Ralf T., Andrade, Diana, Rexer, Karl-Heinz, Kost, Gerhard, Restrepo, Silvia, Grosch, Rita, de Garcia, Maria Caridad Cepero, Maximova, Eugenia, Krumbein, Angelika, Franken, Philipp, Bogs, Carolin, Wielgoss, Anna, Nechwatal, Jan, Farahani-Kofoet, Roxana Djalali, Römer, Peter, Kofoet, Andreas, Hegebarth, Daniela, Stammler, Gerd, Trück, Thomas, and Spring, Otmar

Published
2010

27. Report on the Annual Meeting of the Working Croup 'Host-Parasite Interactions'

Author

Conrath, Uwe, Hoefle, Caroline, Schultheiss, Holger, Eichmann, Ruth, Frank, Markus, Hueckelhoven, Ralph, Pretsch, Klara, Kemen, Ariane, Kemen, Eric, Geiger, Matthias, Mendgen, Kurt, Voegele, Ralf T., Himmelbach, Axel, Liu, Luo, Schweizer, Patrick, Dirks, Mareike E., Richter, Carolin, Moerschbacher, Bruno M., Djulic, Alma, Doehlemann, Gunther, Reißmann, Stefanie, Fleckenstein, Martin, Kahmann, Regine, Friehe, Sven, Schlaich, Nikolaus L., Gay, Alexandra, Zimmermann, Grit, Goellner, Katharina, Langenbach, Caspar, Schaffrath, Ulrich, Kretschmer, Matthias, Leroch, Michaela, Wiwiorra, Melanie, Schoonbeek, Henk-Jan, Walker, Anne-Sophie, Leroux, Pierre, Fillinger, Sabine, de Waard, Maarten, Hahn, Matthias, Moldenhauer, Jennifer, van der Westhuizen, Amie J., Prins, Renée, Pretorius, Zacharias A., Schäfer, Patrick, Pfiffi, Stefanie, Sonnewald, Sophia, Waller, Frank, Pons-Kühnemann, Jörn, Sonnewald, Uwe, Kogel, Karl-Heinz, Paulert, Roberta, Stadnik, Marciel, Schmitz, Gudrun, Spees, Nicole, Behr, Michael, Deising, Holger B., and Wirsel, Stefan G.R.

Published
2008

28. Report on the Annual Meeting of the Working Group 'Host-Parasite Interactions'

Author

Conrath, Uwe, Mönchmeier, Claudia, Knogge, Wolfgang, Dahal, Diwakar, Braun, Hans-Peter, Wydra, Kerstin, Ghareeb, Hassan, Stahl, Frank, Boszo, Zoltan, Ott, Peter, Horbach, Ralf, Graf, Alexander, Thines, Eckhard, Deising, Holger B., Priyadarshini, Indira, Hensel, Goetz, Kumlehn, Jochen, Imani, Jafargholi, Hueckelhoven, Ralph, Zeier, Jürgen, Griebel, Thomas, Geuecke, Martina, Mishina, Tatiana, Masur, Clarissa, Jouanin, Lise, Schlaich, Nikolaus, Leroch, Michaela, Doehlemann, Gunther, Böhm, Andreas, Diwo, Janine, Mosbach, Andreas, Hahn, Matthias, Müller, Olaf, Kahmann, Regine, Schreier, Peter H., Uhrig, Joachim F., Münch, Steffen, Eichler, Nancy, Rahnamaeian, Mohammad, Altincicek, Boran, Kogel, Karl-Heinz, Langen, Gregor, Stein, Elke, Vilcinskas, Andreas, Schirawski, Jan, Brefort, Thomas, Schipper, Kerstin, Münch, Karin, Schöning, Julia, Mannhaupt, Gertrud, Schacht, Tanja, Unger, Christoph, Zellerhoff, Nina, Schweizer, Patrick, Crous, Pedro W., Groenewald, Johannes Z., and Schaffrath, Ulrich

Published
2007

30. Comparative transcriptome profiling identifies maize line specificity of fungal effectors in the maize-Ustilago maydis interaction

Author

Schurack, Selma, Depotter, Jasper R. L., Gupta, Deepak, Thines, Marco, Doehlemann, Gunther, Schurack, Selma, Depotter, Jasper R. L., Gupta, Deepak, Thines, Marco, and Doehlemann, Gunther

Abstract

The biotrophic pathogen Ustilago maydis causes smut disease on maize (Zea mays) and induces the formation of tumours on all aerial parts of the plant. Unlike in other biotrophic interactions, no gene-for-gene interactions have been identified in the maize-U. maydis pathosystem. Thus, maize resistance to U. maydis is considered a polygenic, quantitative trait. Here, we study the molecular mechanisms of quantitative disease resistance (QDR) in maize, and how U. maydis interferes with its components. Based on quantitative scoring of disease symptoms in 26 maize lines, we performed an RNA sequencing (RNA-Seq) analysis of six U. maydis-infected maize lines of highly distinct resistance levels. The different maize lines showed specific responses of diverse cellular processes to U. maydis infection. For U. maydis, our analysis identified 406 genes being differentially expressed between maize lines, of which 102 encode predicted effector proteins. Based on this analysis, we generated U. maydis CRISPR/Cas9 knock-out mutants for selected candidate effector sets. After infections of different maize lines with the fungal mutants, RNA-Seq analysis identified effectors with quantitative, maize line-specific virulence functions, and revealed auxin-related processes as a possible target for one of them. Thus, we show that both transcriptional activity and virulence function of fungal effector genes are modified according to the infected maize line, providing insights into the molecular mechanisms underlying QDR in the maize-U. maydis interaction.

Published
2021

31. Cross-species analysis between the maize smut fungi Ustilago maydis and Sporisorium reilianum highlights the role of transcriptional change of effector orthologs for virulence and disease

Author

Zuo, Weiliang, Depotter, Jasper R. L., Gupta, Deepak K., Thines, Marco, Doehlemann, Gunther, Zuo, Weiliang, Depotter, Jasper R. L., Gupta, Deepak K., Thines, Marco, and Doehlemann, Gunther

Abstract

The constitution and regulation of effector repertoires shape host-microbe interactions. Ustilago maydis and Sporisorium reilianum are two closely related smut fungi, which both infect maize but cause distinct disease symptoms. Understanding how effector orthologs are regulated in these two pathogens can therefore provide insights into the evolution of different infection strategies. We tracked the infection progress of U. maydis and S. reilianum in maize leaves and used two distinct infection stages for cross-species RNA-sequencing analyses. We identified 207 of 335 one-to-one effector orthologs as differentially regulated during host colonization, which might reflect the distinct disease development strategies. Using CRISPR-Cas9-mediated gene conversion, we identified two differentially expressed effector orthologs with conserved function between two pathogens. Thus, differential expression of functionally conserved genes might contribute to species-specific adaptation and symptom development. Interestingly, another differentially expressed orthogroup (UMAG_05318/Sr10075) showed divergent protein function, providing a possible case for neofunctionalization. Collectively, we demonstrated that the diversification of effector genes in related pathogens can be caused both by alteration on the transcriptional level and through functional diversification of the encoded effector proteins.

Published
2021

32. The Ustilago hordei-Barley Interaction is a Versatile System for Characterization of Fungal Effectors

Author

Oekmen, Bilal, Schwammbach, Daniela, Bakkeren, Guus, Neumann, Ulla, Doehlemann, Gunther, Oekmen, Bilal, Schwammbach, Daniela, Bakkeren, Guus, Neumann, Ulla, and Doehlemann, Gunther

Abstract

Obligate biotrophic fungal pathogens, such as Blumeria graminis and Puccinia graminis, are amongst the most devastating plant pathogens, causing dramatic yield losses in many economically important crops worldwide. However, a lack of reliable tools for the efficient genetic transformation has hampered studies into the molecular basis of their virulence or pathogenicity. In this study, we present the Ustilago hordei-barley pathosystem as a model to characterize effectors from different plant pathogenic fungi. We generate U. hordei solopathogenic strains, which form infectious filaments without the presence of a compatible mating partner. Solopathogenic strains are suitable for heterologous expression system for fungal virulence factors. A highly efficient Crispr/Cas9 gene editing system is made available for U. hordei. In addition, U. hordei infection structures during barley colonization are analyzed using transmission electron microscopy, showing that U. hordei forms intracellular infection structures sharing high similarity to haustoria formed by obligate rust and powdery mildew fungi. Thus, U. hordei has high potential as a fungal expression platform for functional studies of heterologous effector proteins in barley.

Published
2021

33. A fungal member of the Arabidopsis thaliana phyllosphere antagonizes Albugo laibachii via a GH25 lysozyme

Author

Eitzen, Katharina, Sengupta, Priyamedha, Kroll, Samuel, Kemen, Eric, Doehlemann, Gunther, Eitzen, Katharina, Sengupta, Priyamedha, Kroll, Samuel, Kemen, Eric, and Doehlemann, Gunther

Abstract

Plants are not only challenged by pathogenic organisms but also colonized by commensal microbes. The network of interactions these microbes establish with their host and among each other is suggested to contribute to the immune responses of plants against pathogens. In wild Arabidopsis thaliana populations, the oomycete pathogen Albugo laibachii plays an influential role in structuring the leaf phyllosphere. We show that the epiphytic yeast Moesziomyces bullatus ex Albugo on Arabidopsis, a close relative of pathogenic smut fungi, is an antagonistic member of the A. thaliana phyllosphere, which reduces infection of A. thaliana by A. laibachii. Combination of transcriptomics, reverse genetics, and protein characterization identified a GH25 hydrolase with lysozyme activity as a major effector of this microbial antagonism. Our findings broaden the understanding of microbial interactions within the phyllosphere, provide insights into the evolution of epiphytic basidiomycete yeasts, and pave the way for novel biocontrol strategies.

Published
2021

34. Host apoplastic cysteine protease activity is suppressed during the mutualistic association of Lolium perenne and Epichloe festucae

Author

Passarge, Andrea, Demir, Fatih, Green, Kimberly, Depotter, Jasper R. L., Scott, Barry, Huesgen, Pitter F., Doehlemann, Gunther, Misas Villamil, Johana C., Passarge, Andrea, Demir, Fatih, Green, Kimberly, Depotter, Jasper R. L., Scott, Barry, Huesgen, Pitter F., Doehlemann, Gunther, and Misas Villamil, Johana C.

Abstract

Plants secrete various defence-related proteins into the apoplast, including proteases. Papain-like cysteine proteases (PLCPs) are central components of the plant immune system. To overcome plant immunity and successfully colonize their hosts, several plant pathogens secrete effector proteins inhibiting plant PLCPs. We hypothesized that not only pathogens, but also mutualistic microorganisms interfere with PLCP-meditated plant defences to maintain endophytic colonization with their hosts. Epichloe festucae forms mutualistic associations with cool season grasses and produces a range of secondary metabolites that protect the host against herbivores. In this study, we performed a genome-wide identification of Lolium perenne PLCPs, analysed their evolutionary relationship, and classified them into nine PLCP subfamilies. Using activity-based protein profiling, we identified four active PLCPs in the apoplast of L. perenne leaves that are inhibited during endophyte interactions. We characterized the L. perenne cystatin LpCys1 for its inhibitory capacity against ryegrass PLCPs. LpCys1 abundance is not altered during the mutualistic interaction and it mainly inhibits LpCP2. However, since the activity of other L. perenne PLCPs is not sensitive to LpCys1, we propose that additional inhibitors, likely of fungal origin, are involved in the suppression of apoplastic PLCPs during E. festucae infection.

Published
2021

35. Shaping the leaf microbiota: plant-microbe-microbe interactions

Author

Chaudhry, Vasvi, Runge, Paul, Sengupta, Priyamedha, Doehlemann, Gunther, Parker, Jane E., Kemen, Eric, Chaudhry, Vasvi, Runge, Paul, Sengupta, Priyamedha, Doehlemann, Gunther, Parker, Jane E., and Kemen, Eric

Abstract

The aerial portion of a plant, namely the leaf, is inhabited by pathogenic and non-pathogenic microbes. The leaf's physical and chemical properties, combined with fluctuating and often challenging environmental factors, create surfaces that require a high degree of adaptation for microbial colonization. As a consequence, specific interactive processes have evolved to establish a plant leaf niche. Little is known about the impact of the host immune system on phyllosphere colonization by non-pathogenic microbes. These organisms can trigger plant basal defenses and benefit the host by priming for enhanced resistance to pathogens. In most disease resistance responses, microbial signals are recognized by extra- or intracellular receptors. The interactions tend to be species specific and it is unclear how they shape leaf microbial communities. In natural habitats, microbe-microbe interactions are also important for shaping leaf communities. To protect resources, plant colonizers have developed direct antagonistic or host manipulation strategies to fight competitors. Phyllosphere-colonizing microbes respond to abiotic and biotic fluctuations and are therefore an important resource for adaptive and protective traits. Understanding the complex regulatory host-microbe-microbe networks is needed to transfer current knowledge to biotechnological applications such as plant-protective probiotics.

Published
2021

36. Effectors with Different Gears: Divergence of Ustilago maydis Effector Genes Is Associated with Their Temporal Expression Pattern during Plant Infection

Author

Depotter, Jasper R. L., Zuo, Weiliang, Hansen, Maike, Zhang, Boqi, Xu, Mingliang, Doehlemann, Gunther, Depotter, Jasper R. L., Zuo, Weiliang, Hansen, Maike, Zhang, Boqi, Xu, Mingliang, and Doehlemann, Gunther

Abstract

Plant pathogens secrete a variety of effector proteins that enable host colonization but are also typical pathogen detection targets for the host immune system. Consequently, effector genes encounter high selection pressures, which typically makes them fast evolving. The corn smut pathogen Ustilago maydis has an effector gene repertoire with a dynamic expression across the different disease stages. We determined the amino acid divergence of U. maydis effector candidates with Sporisorium reilianum orthologs, a close relative of U. maydis. Intriguingly, there are two distinct groups of effector candidates, ones with a respective conserved and diverged protein evolution. Conservatively evolving effector genes especially have their peak expression during the (pre-)penetration stages of the disease cycle. In contrast, expression of divergently evolving effector genes generally peaks during fungal proliferation within the host. To test if this interspecific effector diversity corresponds to intraspecific diversity, we sampled and sequenced a diverse collection of U. maydis strains from the most important maize breeding and production regions in China. Effector candidates with a diverged interspecific evolution had more intraspecific amino acid variation than candidates with a conserved evolution. In conclusion, we highlight diversity in evolution within the U. maydis effector repertoire with dynamically and conservatively evolving members.

Published
2021

39. Cas9HF1 enhanced specificity in Ustilago maydis

Author

Zuo, Weiliang, Depotter, Jasper R. L., Doehlemann, Gunther, Zuo, Weiliang, Depotter, Jasper R. L., and Doehlemann, Gunther

Abstract

The clustered regularly interspaced short palindromic repeats (CRISPR)-Cas9 system is widely used as a tool to precisely manipulate genomic sequence targeted by sgRNA (single guide RNA) and is adapted in different species for genome editing. One of the major concerns of CRISPR-Cas9 is the possibility of off-target effects, which can be remedied by the deployment of high fidelity Cas9 variants. Ustilago maydis is a maize fungal pathogen, which has served as a model organism for biotrophic pathogens for decades. The successful adaption of CRISPR-Cas9 in U. maydis greatly facilitated effector biology studies. Here, we constructed an U. maydis reporter strain that allows in vivo quantification of efficiency and target specificity of three high fidelity Cas9 variants, Cas9HF1, Cas9esp1.1 and Cas9hypa. This approach identified Cas9HF1 as most specific Cas9 variant in U. maydis. Furthermore, whole genome sequencing showed absence of off-target effects in U. maydis by CRISPR-Cas9 editing. (C) 2020 The Authors. Published by Elsevier Ltd on behalf of British Mycological Society.

Published
2020

40. Target the core: durable plant resistance against filamentous plant pathogens through effector recognition

Author

Depotter, Jasper R. L., Doehlemann, Gunther, Depotter, Jasper R. L., and Doehlemann, Gunther

Abstract

Plant pathogens colonize their host through the secretion of effector proteins that modulate plant metabolism and immune responses to their benefit. Plants evolve towards effector recognition, leading to host immunity. Typically, pathogen effectors are targets for recognition through plant receptors that are encoded by resistance genes. Resistance gene mediated crop immunity puts a tremendous pressure on pathogens to adapt and alter their effector repertoire to overcome recognition. We argue that the type of effector that is recognized by the host may have considerable implications on the durability of resistance against filamentous plant pathogens. Effector genes that are conserved among pathogens and reside in core genome regions are most likely to hold indispensable virulence functions. Consequently, the cost for the pathogen to overcome recognition by the host is higher than for diversified, host-specific effectors with a quantitative impact on virulence. Consequently, resistance genes that directly target conserved effector proteins without the interception of other effector proteins are potentially excellent resistance resources. (c) 2019 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

Published
2020

41. Trehalose metabolism is important for heat stress tolerance and spore germination of Botrytis cinerea

Author

Doehlemann, Gunther, Berndt, Patrick, and Hahn, Matthias

Subjects
Gene mutations -- Research, Germination -- Research, Botrytis -- Genetic aspects, Biological sciences
Abstract

To analyse the role of trehalose as stress protectant and carbon storage compound in the grey mould fungus Botrytis cinerea, mutants defective in trehalose-6-phosphate synthase (TPS1) and neutral trehalase (TRE1) were constructed. The [DELTA]tps1 mutant was unable to synthesize trehalose, whereas the [DELTA]tre1 mutant showed elevated trehalose levels compared to the wild-type and was unable to mobilize trehalose during conidial germination. Both mutants showed normal vegetative growth and were not affected in plant pathogenicity. Growth of the [DELTA]tps1 mutant was more heat sensitive compared to the wild-type. Similarly, [DELTA]tps1 conidia showed a shorter survival under heat stress, and their viability at moderate temperatures was strongly reduced. In germinating wild-type conidia, rapid trehalose degradation occurred only when germination was induced in the presence of nutrients. In contrast, little trehalose breakdown was observed during germination on hydrophobic surfaces in water. Here, addition of cAMP to conidia induced trehalose mobilization and accelerated the germination process, probably by activation of TRE1. In accordance with these data, both mutants showed germination defects only in the presence of sugars but not on hydrophobic surfaces in the absence of nutrients. The data indicate that in B. cinerea trehalose serves as a stress protectant, and also as a significant but not essential carbon source for germination when external nutrients are low. In addition, evidence was obtained that trehalose 6-phosphate plays a role as a regulator of glycolysis during germination.

Published
2006

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