Your search keyword '"Oliveira-Garcia, Ely"' showing total 18 results

1. A pharmacological approach to investigating effector translocation in rice- Magnaporthe oryzae interactions

Author

Oliveira-Garcia, Ely, primary and Hamilton, Allison Jane, additional

Published

2024

2. Effector‐triggered susceptibility by the rice blast fungus Magnaporthe oryzae

Author

Oliveira‐Garcia, Ely, primary, Yan, Xia, additional, Oses‐Ruiz, Miriam, additional, de Paula, Samuel, additional, and Talbot, Nicholas J., additional

Published

2023

3. Effector‐triggered susceptibility by the rice blast fungus Magnaporthe oryzae.

Author

Oliveira‐Garcia, Ely, Yan, Xia, Oses‐Ruiz, Miriam, de Paula, Samuel, and Talbot, Nicholas J.

Subjects

*RICE blast disease, *PYRICULARIA oryzae, *PLANT diseases, *RICE diseases & pests, *PLANT anatomy, *RICE

Abstract

Summary: Rice blast, the most destructive disease of cultivated rice world‐wide, is caused by the filamentous fungus Magnaporthe oryzae. To cause disease in plants, M. oryzae secretes a diverse range of effector proteins to suppress plant defense responses, modulate cellular processes, and support pathogen growth. Some effectors can be secreted by appressoria even before host penetration, while others accumulate in the apoplast, or enter living plant cells where they target specific plant subcellular compartments. During plant infection, the blast fungus induces the formation of a specialized plant structure known as the biotrophic interfacial complex (BIC), which appears to be crucial for effector delivery into plant cells. Here, we review recent advances in the cell biology of M. oryzae–host interactions and show how new breakthroughs in disease control have stemmed from an increased understanding of effector proteins of M. oryzae are deployed and delivered into plant cells to enable pathogen invasion and host susceptibility. [ABSTRACT FROM AUTHOR]

Published

2024

4. Host-induced silencing of Fusarium culmorum genes protects wheat from infection

Author

Chen, Wanxin, Kastner, Christine, Nowara, Daniela, Oliveira-Garcia, Ely, Rutten, Twan, Zhao, Yusheng, Deising, Holger B., Kumlehn, Jochen, and Schweizer, Patrick

Published

2016

5. The Small Ras Superfamily GTPase Rho4 of the Maize Anthracnose Fungus Colletotrichum graminicola Is Required for β-1,3-glucan Synthesis, Cell Wall Integrity, and Full Virulence

Author

Oliveira-Garcia, Ely, primary, Aliyeva-Schnorr, Lala, additional, De Oliveira Silva, Alan, additional, El Din Ghanem, Seif, additional, Thor, Kathrin, additional, Peiter, Edgar, additional, and Deising, Holger B., additional

Published

2022

6. Clathrin-mediated endocytosis facilitates the internalization of Magnaporthe oryzae effectors into rice cells.

Author

Oliveira-Garcia, Ely, Tamang, Tej Man, Park, Jungeun, Dalby, Melinda, Martin-Urdiroz, Magdalena, Herrero, Clara Rodriguez, Vu, An Hong, Park, Sunghun, Talbot, Nicholas J, and Valent, Barbara

Subjects

*PYRICULARIA oryzae, *PLANT plasma membranes, *ENDOCYTOSIS, *COATED vesicles, *GENE silencing, *CELL imaging, *RICE

Abstract

Fungi and oomycetes deliver effectors into living plant cells to suppress defenses and control plant processes needed for infection. Little is known about the mechanism by which these pathogens translocate effector proteins across the plasma membrane into the plant cytoplasm. The blast fungus Magnaporthe oryzae secretes cytoplasmic effectors into a specialized biotrophic interfacial complex (BIC) before translocation. Here, we show that cytoplasmic effectors within BICs are packaged into punctate membranous effector compartments that are occasionally observed in the host cytoplasm. Live cell imaging with fluorescently labeled proteins in rice (Oryza sativa) showed that these effector puncta colocalize with the plant plasma membrane and with CLATHRIN LIGHT CHAIN 1, a component of clathrin-mediated endocytosis (CME). Inhibiting CME using virus-induced gene silencing and chemical treatments resulted in cytoplasmic effectors in swollen BICs lacking effector puncta. By contrast, fluorescent marker colocalization, gene silencing, and chemical inhibitor studies failed to support a major role for clathrin-independent endocytosis in effector translocation. Effector localization patterns indicated that cytoplasmic effector translocation occurs underneath appressoria before invasive hyphal growth. Taken together, this study provides evidence that cytoplasmic effector translocation is mediated by CME in BICs and suggests a role for M. oryzae effectors in coopting plant endocytosis. [ABSTRACT FROM AUTHOR]

Published

2023

7. Redox‐engineering enhances maize thermotolerance and grain yield in the field

Author

Sprague, Stuart A., primary, Tamang, Tej Man, additional, Steiner, Trevor, additional, Wu, Qingyu, additional, Hu, Ying, additional, Kakeshpour, Tayebeh, additional, Park, Jungeun, additional, Yang, Jian, additional, Peng, Zhao, additional, Bergkamp, Blake, additional, Somayanda, Impa, additional, Peterson, Morgan, additional, Oliveira Garcia, Ely, additional, Hao, Yangfan, additional, St. Amand, Paul, additional, Bai, Guihua, additional, Nakata, Paul A., additional, Rieu, Ivo, additional, Jackson, David P., additional, Cheng, Ninghui, additional, Valent, Barbara, additional, Hirschi, Kendal D., additional, Jagadish, SV Krishna, additional, Liu, Sanzhen, additional, White, Frank F., additional, and Park, Sunghun, additional

Published

2022

8. Infection Structure—Specific Expression of β-1,3-Glucan Synthase Is Essential for Pathogenicity of Colletotrichum graminicola and Evasion of β-Glucan—Triggered Immunity in Maize

Author

Oliveira-Garcia, Ely and Deising, Holger B.

Published

2013

9. 2012 Report on the Annual Meeting of the Working Groups 'Host-Parasite Interactions' and 'Mycology'

Author

Conrath, Uwe, Steiner, Ulrike, Borlinghaus, Jan, Schlaich, Nikolaus L., Dalio, Ronaldo, Fleischmann, Frank, Oßwald, Wolfgang, Grasse, Wolfgang, Spring, Otmar, Utermark, Jan, Zuther, Katja, Schirawski, Jan, Kamble, Avinash, Koopmann, Birger, v. Tiedemann, Andreas, Kohlndorfer, Matthias, Link, Tobias, Voegele, Ralf T, Müller, Manuel, Oliveira-Garcia, Ely, Deising, Holger B, Becher, Rayko, Wirsel, Stefan, Ebinghaus, Malte, Bogisch, Sonja, Maier, Wolfgang, Begerow, Dominik, Enderle, Rasmus, Grüner, Jörg, Fink, Siegfried, Metzler, Berthold, Peters, Franziska, Bußkamp, Johanna, Hahn, Matthias, Leroch, Michaela, Plesken, Cecilia, Naoshin, Zinnnia, Weber, Roland, Koch, Andreas, Stammler, Gerd, Paulsen, Hanna, Jäckel, Barbara, Schmid, Claudia-Stefanie, Goßmann, Monika, Zander, Matthias, Büttner, Carmen, and Lava, Sukanya Soongahalli

Published

2013

10. A pharmacological approach to investigating effector translocation in rice-Magnaportheoryzae interactions

Author

Oliveira-Garcia, Ely and Hamilton, Allison Jane

Abstract

ABSTRACTFungal pathogens deliver effector proteins into living plant cells to suppress plant immunity and control plant processes that are needed for infection. During plant infection, the devastating rice blast fungus, Magnaporthe oryzae, forms the specialized biotrophic interfacial complex (BIC), which is essential for effector translocation. Cytoplasmic effectors are first focally secreted into BICs, and subsequently packaged into dynamic membranous effector compartments (MECs), then translocated via clathrin-mediated endocytosis (CME) into the host cytoplasm. This study demonstrates that clathrin-heavy chain inhibitors endosidin-9 (ES9) and endosidin-9–17 (ES9–17) blocked the internalization of the fluorescently labeled effectors Bas1 and Pwl2 in rice cells, leading to swollen BICs lacking MECs. In contrast, ES9–17 treatment had no impact on the localization pattern of the apoplastic effector Bas4. This study provides further evidence that cytoplasmic effector translocation occurs by CME in BICs, suggesting a potential role for M. oryzaeeffectors in co-opting plant endocytosis.

Published

2024

11. Effector gene reshuffling involves dispensable mini-chromosomes in the wheat blast fungus

Author

Peng, Zhao, primary, Oliveira-Garcia, Ely, additional, Lin, Guifang, additional, Hu, Ying, additional, Dalby, Melinda, additional, Migeon, Pierre, additional, Tang, Haibao, additional, Farman, Mark, additional, Cook, David, additional, White, Frank F., additional, Valent, Barbara, additional, and Liu, Sanzhen, additional

Published

2019

12. The Glycosylphosphatidylinositol Anchor Biosynthesis Genes GPI12, GAA1, and GPI8 Are Essential for Cell-Wall Integrity and Pathogenicity of the Maize Anthracnose Fungus Colletotrichum graminicola

Author

Oliveira-Garcia, Ely, primary and Deising, Holger B., additional

Published

2016

13. The Small GTPase MoSec4 Is Involved in Vegetative Development and Pathogenicity by Regulating the Extracellular Protein Secretion in Magnaporthe oryzae

Author

Zheng, Huakun, primary, Chen, Simiao, additional, Chen, Xiaofeng, additional, Liu, Shuyan, additional, Dang, Xie, additional, Yang, Chengdong, additional, Giraldo, Martha C., additional, Oliveira-Garcia, Ely, additional, Zhou, Jie, additional, Wang, Zonghua, additional, and Valent, Barbara, additional

Published

2016

14. Host-induced silencing ofFusarium culmorumgenes protects wheat from infection

Author

Chen, Wanxin, primary, Kastner, Christine, additional, Nowara, Daniela, additional, Oliveira-Garcia, Ely, additional, Rutten, Twan, additional, Zhao, Yusheng, additional, Deising, Holger B., additional, Kumlehn, Jochen, additional, and Schweizer, Patrick, additional

Published

2016

15. Attenuation of PAMP-triggered immunity in maize requires down-regulation of the key β-1,6-glucan synthesis genesKRE5andKRE6in biotrophic hyphae ofColletotrichum graminicola

Author

Oliveira-Garcia, Ely, primary and Deising, Holger B., additional

Published

2016

16. The Small GTPase MoSec4 Is Involved in Vegetative Development and Pathogenicity by Regulating the Extracellular Protein Secretion in Magnaporthe oryzae.

Author

Huakun Zheng, Simiao Chen, Xiaofeng Chen, Shuyan Liu, Xie Dang, Chengdong Yang, Giraldo, Martha C., Oliveira-Garcia, Ely, Jie Zhou, Zonghua Wang, and Valent, Barbara

Subjects

GUANOSINE triphosphatase, PLANT cells & tissues, PYRICULARIA oryzae

Abstract

The Rab GTPase proteins play important roles in the membrane trafficking, and consequently protein secretion and development of eukaryotic organisms. However, little is known about the function of Rab GTPases in Magnaporthe oryzae. To further explore the function of Rab GTPases, we deleted the ortholog of the yeast Sec4p protein in M. oryzae, namely MoSEC4. The ΔMosec4 mutant is defective in polarized growth and conidiation, and it displays decreased appressorium turgor pressure and attenuated pathogenicity. Notably, the biotrophic invasive hyphae produced in rice cells are more bulbous and compressed in the ΔMosec4 mutant. Further studies showed that deletion of the MoSEC4 gene resulted in decreased secretion of extracellular enzymes and mislocalization of the cytoplasmic effector PWL2-mCherry-NLS. In accordance with a role in secretion, the GFP-MoSec4 fusion protein mainly accumulates at tips of growing vegetative hyphae. Our results suggest that the MoSec4 protein plays important roles in the secretion of extracellular proteins and consequently hyphal development and pathogenicity in the rice blast fungus. [ABSTRACT FROM AUTHOR]

Published

2016

17. Host-induced silencing of Fusarium culmorum genes protects wheat from infection.

Author

Wanxin Chen, Kastner, Christine, Nowar, Daniela, Oliveira-Garcia, Ely, Rutten, Twan, Yusheng Zhao, Deising, Holger B., Kumlehn, Jochen, and Schweizer, Patrick

Subjects

FUSARIUM culmorum, WHEAT diseases & pests, DOUBLE-stranded RNA, PLANT genetics, RNA interference

Abstract

Plants producing antisense or double-stranded RNA molecules that target specific genes of eukaryotic pests or pathogens can become protected from their attack. This beneficial effect was also reported for plant-fungus interactions and is believed to reflect uptake of the RNAs by the fungus via an as yet unknown mechanism, followed by target gene silencing. Here we report that wheat plants pre-infected with Barley stripe mosaic virus (BSMV) strains containing antisense sequences against target genes of the Fusarium head blight (FHB) fungus F. culmorum caused a reduction of corresponding transcript levels in the pathogen and reduced disease symptoms. Stable transgenic wheat plants carrying an RNAi hairpin construct against the β-1, 3-glucan synthase gene FcGls1 of F. culmorum or a triple combination of FcGls1 with two additional, pre-tested target genes also showed enhanced FHB resistance in leaf and spike inoculation assays under greenhouse and near-field conditions, respectively. Microscopic evaluation of F. culmorum development in plants transiently or stably expressing FcGls1 silencing constructs revealed aberrant, swollen fungal hyphae, indicating severe hyphal cell wall defects. The results lead us to propose host-induced gene silencing (HIGS) as a plant protection approach that may also be applicable to highly FHB-susceptible wheat genotypes. [ABSTRACT FROM AUTHOR]

Published

2016

18. Attenuation of PAMP-triggered immunity in maize requires down-regulation of the key β-1,6-glucan synthesis genes KRE5 and KRE6 in biotrophic hyphae of Colletotrichum graminicola.

Author

Oliveira‐Garcia, Ely and Deising, Holger B.

Subjects

*CORN disease & pest resistance, *GLUCAN synthase, *COLLETOTRICHUM graminicola, *MICROBIAL virulence, *GENETIC overexpression, *IMMUNE response, *RNA interference

Abstract

In plants, pathogen defense is initiated by recognition of pathogen-associated molecular patterns ( PAMPs) via plasma membrane-localized pattern-recognition receptors ( PRRs). Fungal structural cell wall polymers such as branched β-glucans are essential for infection structure rigidity and pathogenicity, but at the same time represent PAMPs. Kre5 and Kre6 are key enzymes in β-1,6-glucan synthesis and formation of branch points of the β-glucan network. In spite of the importance of branched β-glucan for hyphal rigidity and plant-fungus interactions, neither the role of KRE5 and KRE6 in pathogenesis nor mechanisms allowing circumventing branched β-glucan-triggered immune responses are known. We functionally characterized KRE5 and KRE6 of the ascomycete Colletotrichum graminicola, a hemibiotroph that infects maize ( Zea mays). After appressorial plant invasion, this fungus sequentially differentiates biotrophic and highly destructive necrotrophic hyphae. RNAi-mediated reduction of KRE5 and KRE6 transcript abundance caused appressoria to burst and swelling of necrotrophic hyphae, indicating that β-1,6-glucosidic bonds are essential in these cells. Live cell imaging employing KRE5: mCherry and KRE6: mCherry knock-in strains and probing of infection structures with a YFP-conjugated β-1,6-glucan-binding protein showed expression of these genes and exposure of β-1,6-glucan in conidia, appressoria and necrotrophic, but not in biotrophic hyphae. Overexpression of KRE5 and KRE6 in biotrophic hyphae led to activation of broad-spectrum plant defense responses, including papilla and H2O2 formation, as well as transcriptional activation of several defense-related genes. Collectively, our results strongly suggest that down-regulation of synthesis and avoidance of exposure of branched β-1,3-β-1,6-glucan in biotrophic hyphae is required for attenuation of plant immune responses. [ABSTRACT FROM AUTHOR]

Published

2016