Karen M. Snetselaar scite author profile

We identified a nonpathogenic strain of Ustilago maydis by tagging mutagenesis. The affected gene, glucosidase1 (gas1), displays similarity to catalytic a-subunits of endoplasmic reticulum (ER) glucosidase II. We have shown that Gas1 localizes to the ER and complements the temperature-sensitive phenotype of a Saccharomyces cerevisiae mutant lacking ER glucosidase II. gas1 deletion mutants were normal in growth and mating but were more sensitive to calcofluor and tunicamycin. Mutant infection hyphae displayed significant alterations in the distribution of cell wall material and were able to form appressoria and penetrate the plant surface but arrested growth in the epidermal cell layer. Electron microscopy analysis revealed that the plant-fungal interface between mutant hyphae and the plant plasma membrane was altered compared with the interface of penetrating wild-type hyphae. This may indicate that gas1 mutants provoke a plant response.

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Ustilago maydisMating Hyphae Orient Their Growth toward Pheromone Sources

Snetselaar

Bölker

Kahmann

1996

Fungal Genetics and Biology

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Karen M. Snetselaar

Insights from the genome of the biotrophic fungal plant pathogen Ustilago maydis

Identification of a motor protein required for filamentous growth in Ustilago maydis

Light and electron microscopy of Ustilago maydis hyphae in maize

Endoplasmic Reticulum Glucosidase II Is Required for Pathogenicity ofUstilago maydis [W]

Ustilago maydisMating Hyphae Orient Their Growth toward Pheromone Sources

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