SSU1 mediates sulphite efflux in Saccharomyces cerevisiae.

Ssu1p, a plasma membrane protein involved in sulphite metabolism in Saccharomyces cerevisiae, was found to be required for efficient sulphite efflux. An SSU1 null mutant accumulated significantly more sulphite than wild-type, whereas cells expressing multicopy SSU1 accumulated significantly less. Cells expressing FZF1-4, a dominant allele of a transcriptional activator of SSU1 that confers sulphite resistance, also accumulated less sulphite. beta-galactosidase activity in the FZF1-4 strain carrying an SSU1::lacZ fusion was found to be 8.5-fold higher than in a strain carrying wild-type FZF1, confirming that the heightened resistance was correlated with hyperactivation of SSU1. Multicopy SSU1 was also found to increase the sulphite resistance of a number of unrelated sulphite-sensitive strains by a factor of 3- to 8-fold. Rates of efflux of free sulphite from cells expressing multicopy SSU1 or FZF1-4 were significantly greater than that from wild-type or from a SSU1 null mutant. Rates of efflux of bound sulphite from wild-type, a SSU1 null mutant, a FZF1-4 mutant, or cells expressing multicopy SSU1 were not significantly different, suggesting that Ssu1p specifically mediates efflux of the free form of sulphite. Copyright 2000 John Wiley & Sons, Ltd.