Heiko Eichhorn scite author profile

In the smut fungus Ustilago maydis, a tightly regulated cAMP signaling cascade is necessary for pathogenic development. Transcriptome analysis using whole genome microarrays set up to identify putative target genes of the protein kinase A catalytic subunit Adr1 revealed nine genes with putative functions in two high-affinity iron uptake systems. These genes locate to three gene clusters on different chromosomes and include the previously identified complementing siderophore auxotroph genes sid1 and sid2 involved in siderophore biosynthesis. Transcription of all nine genes plus three additional genes associated with the gene clusters was also coregulated by iron through the Urbs1 transcription factor. Two components of a high-affinity iron uptake system were characterized in more detail: fer2, encoding a high-affinity iron permease; and fer1, encoding an iron multicopper oxidase. Fer2 localized to the plasma membrane and complemented an ftr1 mutant of Saccharomyces cerevisiae lacking a high-affinity iron permease. During pathogenic development, fer2 expression was confined to the phase of hyphal proliferation inside the plant. fer2 as well as fer1 deletion mutants were strongly affected in virulence. These data highlight the importance of the high-affinity iron uptake system via an iron permease and a multicopper oxidase for biotrophic development in the U. maydis/maize (Zea mays) pathosystem.

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A Homologue of the Aspergillus velvet Gene Regulates both Cephalosporin C Biosynthesis and Hyphal Fragmentation in Acremonium chrysogenum

Dreyer

Eichhorn²,

Friedlin³

et al. 2007

Appl Environ Microbiol

127

102

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The Aspergillus nidulans velvet (veA) gene encodes a global regulator of gene expression controlling sexual development as well as secondary metabolism. We have identified the veA homologue AcveA from Acremonium chrysogenum, the major producer of the ␤-lactam antibiotic cephalosporin C. Two different disruption strains as well as the corresponding complements were generated as a prelude to detailed functional analysis. Northern hybridization and quantitative real-time PCR clearly indicate that the nucleus-localized AcVEA polypeptide controls the transcriptional expression of six cephalosporin C biosynthesis genes. The most drastic reduction in expression is seen for cefEF, encoding the deacetoxycephalosporine/deacetylcephalosporine synthetase. After 120 h of growth, the cefEF transcript level is below 15% in both disruption strains compared to the wild type. These transcriptional expression data are consistent with results from a comparative and time-dependent high-performance liquid chromatography analysis of cephalosporin C production. Compared to the recipient, both disruption strains have a cephalosporin C titer that is reduced by 80%. In addition to its role in cephalosporin C biosynthesis, AcveA is involved in the developmentally dependent hyphal fragmentation. In both disruption strains, hyphal fragmentation is already observed after 48 h of growth, whereas in the recipient strain, arthrospores are not even detected before 96 h of growth. Finally, the two mutant strains show hyperbranching of hyphal tips on osmotically nonstabilized media. Our findings will be significant for biotechnical processes that require a defined stage of cellular differentiation for optimal production of secondary metabolites.

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Pheromone‐regulated target genes respond differentially to MAPK phosphorylation of transcription factor Prf1

Zarnack

Eichhorn

Kahmann

et al. 2008

Molecular Microbiology

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SummaryPheromone signalling during mating is essential for pathogenicity of Ustilago maydis. The activity of the key transcription factor Prf1 is controlled at the transcriptional level and post-translationally by mitogenactivated protein kinase (MAPK) and protein kinase A (PKA) phosphorylation. However, the precise contribution of these regulatory mechanisms to the transcriptional output is unknown. Here, we genetically dissected the three levels of Prf1 regulation. We performed transcriptional profiling of respective mutants to identify and classify targets. This approach revealed that transcriptional regulation of prf1 had only minor influence on target gene expression stressing the importance of post-translational control. PKA regulation of Prf1 was sufficient to control expression of nine pheromone-responsive genes including the major transcription factor regulating pathogenicity. MAPK regulation was necessary for the pheromone response of a set of 57 genes. In 35 cases, pheromone responsiveness was completely lost, while in the remaining 22 cases regulation was alleviated. This indicated a novel level of complexity in MAPK signalling suggesting that target genes respond differentially to MAPK phosphorylation of the respective transcription factors.

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Identification of plant-regulated genes in Ustilago maydis by enhancer-trapping mutagenesis

et al. 2003

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To identify plant-induced genes in the maize pathogenic fungus Ustilago maydis we have developed a genetic screen that combines REMI (restriction enzyme mediated integration) mutagenesis with enhancer trapping using the gene for Green Fluorescent Protein (GFP) as vital reporter. Of 2,350 insertion mutants isolated, three were shown to express GFP only after the fungus had come into contact with the host maize plant. One of the genes tagged was mfa1, which encodes the pheromone precursor, while the second gene, pig2, codes for a product that showed similarity to protein disulfide isomerase. The third integration event had occurred in a locus which we designated the p -locus. This locus contains 11 genes in a 24-kb stretch. Of these, pig3, 4, 5, 6 and 7 show a plant-regulated expression pattern, while the other genes found at the locus (designated npi) do not. Of the plant-regulated genes only two were found to be similar to database entries: the pig4 product is related to membrane transporters of the major facilitator family, while the pig6 protein shows similarity to multidrug transporters. Detailed expression studies revealed that the five plant-regulated genes at the p -locus differ in their expression profiles. Mutants deleted for each of them showed no apparent phenotype, while the npi1 gene appeared to be essential. A viable deletion encompassing the entire p -locus could be generated when npi1 function was provided ectopically. This deletion mutant also showed no obvious alteration in virulence.

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Heiko Eichhorn

A Ferroxidation/Permeation Iron Uptake System Is Required for Virulence inUstilago maydis

A Homologue of the Aspergillus velvet Gene Regulates both Cephalosporin C Biosynthesis and Hyphal Fragmentation in Acremonium chrysogenum

Pheromone‐regulated target genes respond differentially to MAPK phosphorylation of transcription factor Prf1

Identification of plant-regulated genes in Ustilago maydis by enhancer-trapping mutagenesis

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