Abstract

The fine structure and sterol composition of wild-type and triazole-resistant laboratory strains of Ustilago avenae was investigated by electron microscopic and biochemical methods. The growth rate of the mutants was only slightly affected by a fungicide (triadimefon) concentration of about 0.1 mg/ml, whereas the wild-type cells were completely inhibited. Biochemically the sterol composition of wild-type and triazole-resistant strains did not differ. In freeze-fracture electron microscopy no ultrastructural differences were observed between the different untreated strains (wild and resistant). Filipin labeling allowed the localization of ergosterol in the plasmalemma (PF and EF). Generally, wild-type samples and mutants exhibited a clear pattern of filipin-sterol (FS-) complexes. These results are in accord with the biochemical experiments. Neither a modification of the sterol composition nor an altered localization of sterols seemed to be the prime cause of resistance in U. avenae mutants. Alternative explanations for the resistance mechanism are discussed.

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