Analysis of the wheat and <b><i>Puccinia triticina</i></b> (leaf rust) proteomes during a susceptible host‐pathogen interaction

Rampitsch, Christof; Bykova, Natalia V.; McCallum, Brent D.; Beimcik, Eva; Ens, Werner

doi:10.1002/pmic.200500351

Cited by 106 publications

(85 citation statements)

References 43 publications

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“…There are published reports that analyze the leaf proteome of plants infected by pathogenic fungi, but few of these describe fungal proteins within total extracts from infected leaves, and only a very limited number of fungal proteins have been identified in these tissues (12,13). In one instance intercellular washing fluids were extracted to detect secreted fungal proteins in the apoplast (14).…”

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confidence: 99%

In Planta Proteomics and Proteogenomics of the Biotrophic Barley Fungal Pathogen Blumeria graminis f. sp. hordei>

Bindschedler

Burgis

Mills

et al. 2009

Molecular & Cellular Proteomics

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To further our understanding of powdery mildew biology during infection, we undertook a systematic shotgun proteomics analysis of the obligate biotroph Blumeria graminis f. sp. hordei at different stages of development in the host. Moreover we used a proteogenomics approach to feed information into the annotation of the newly sequenced genome. We analyzed and compared the proteomes from three stages of development representing different functions during the plant-dependent vegetative life cycle of this fungus. We identified 441 proteins in ungerminated spores, 775 proteins in epiphytic sporulating hyphae, and 47 proteins from haustoria inside barley leaf epidermal cells and used the data to aid annotation of the B. graminis f. sp. hordei genome. We also compared the differences in the protein complement of these key stages. Although confirming some of the previously reported findings and models derived from the analysis of transcriptome dynamics, our results also suggest that the intracellular haustoria are subject to stress possibly as a result of the plant defense strategy, including the production of reactive oxygen species. In addition, a number of small haustorial proteins with a predicted N-terminal signal peptide for secretion were identified in infected tissues: these represent candidate effector proteins that may play a role in controlling host metabolism and immunity.

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confidence: 99%

In Planta Proteomics and Proteogenomics of the Biotrophic Barley Fungal Pathogen Blumeria graminis f. sp. hordei>

Bindschedler

Burgis

Mills

et al. 2009

Molecular & Cellular Proteomics

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“…Previously, such approaches have been used to study phytopathogenic fungi through protein profiling (2,5,12,42,44) and to identify host- (45) and morphogenesis-responsive (25) proteins. Recent sequencing of the genomes of the phytopathogenic fungi Magnaporthe grisea, Ustilago maydis, Fusarium graminearum, and Stagonospora nodorum (7,9,19,24) provides an opportunity for more thorough mass spectrometry (MS)-based proteomic analyses (2,42).…”

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A Signaling-Regulated, Short-Chain Dehydrogenase of Stagonospora nodorum Regulates Asexual Development

et al. 2008

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The fungus Stagonospora nodorum is a causal agent of leaf and glume blotch disease of wheat. It has been previously shown that inactivation of heterotrimeric G protein signaling in Stagonospora nodorum caused development defects and reduced pathogenicity [P. S. Solomon et al., Mol. Plant-Microbe Interact. 17: [456][457][458][459][460][461][462][463][464][465][466] 2004]. In this study, we sought to identify targets of the signaling pathway that may have contributed to phenotypic defects of the signaling mutants. A comparative analysis of Stagonospora nodorum wild-type and G␣-defective mutant (gna1) intracellular proteomes was performed via two-dimensional polyacrylamide gel electrophoresis. Several proteins showed significantly altered abundances when comparing the two strains. One such protein, the short-chain dehydrogenase Sch1, was 18-fold less abundant in the gna1 strain, implying that it is positively regulated by G␣ signaling. Gene expression and transcriptional enhanced green fluorescent protein fusion analyses of Sch1 indicates strong expression during asexual development. Mutant strains of Stagonospora nodorum lacking Sch1 demonstrated poor growth on minimal media and exhibited a significant reduction in asexual sporulation on all growth media examined. Detailed histological experiments on sch1 pycnidia revealed that the gene is required for the differentiation of the subparietal layers of asexual pycnidia resulting in a significant reduction in both pycnidiospore size and numbers.

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“…Cooper et al (2006) analyzed proteins from urediospores of U. appendiculatus and indicated similar upcoming analyses for the germ tube stage and infection structures. Rampitsch et al (2006) have started to analyze the proteome of P. triticina during its interaction with its host. Integration of results from such approaches with array, EST, and genomic data will provide useful information to understand the molecular details of obligate biotrophy.…”

Section: Biochemical and Molecular Analyses Of Rust Fungimentioning

confidence: 99%

The Uredinales: Cytology, Biochemistry, and Molecular Biology

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Analysis of the wheat and Puccinia triticina (leaf rust) proteomes during a susceptible host‐pathogen interaction

Cited by 106 publications

References 43 publications

In Planta Proteomics and Proteogenomics of the Biotrophic Barley Fungal Pathogen Blumeria graminis f. sp. hordei>

In Planta Proteomics and Proteogenomics of the Biotrophic Barley Fungal Pathogen Blumeria graminis f. sp. hordei>

A Signaling-Regulated, Short-Chain Dehydrogenase of Stagonospora nodorum Regulates Asexual Development

The Uredinales: Cytology, Biochemistry, and Molecular Biology

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