Sulfate assimilation plays a vital role in prototrophic organisms. Orthologues of the alternative sulfate transporter (AstA) gene from Aspergillus nidulans were identified in the fungal plant pathogens Fusarium sambucinum and Fusarium graminearum. By physiological and biochemical analyses, the AstA orthologues were determined to be able to uptake sulfate from the environment. Similarly to astA in A. nidulans, the FsastA gene was found to be regulated by sulfur metabolite repression (SMR) in a sulfur-dependent manner. In contrast, the FgastA transcript was undetectable, however, when the FgastA gene was expressed heterologously in A. nidulans, the translated FgAstA protein acted as a sulfate transporter. Interestingly, F. sambucinum astA expression was remarkably augmented in infected potato tubers, despite the presence abundant sulfate and was found not to be correlated with plant resistance.
Keywords: Alternative sulfate transporter; Gibberella pulicaris; Plant pathogen; Sulfur starvation.
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