Expression of the FOX1 gene of Saccharomyces cerevisiae is regulated by carbon source, but not by the known glucose repression genes.

We have investigated the regulation of expression of the FOX1 gene of Saccharomyces cerevisiae which encodes acyl-CoA oxidase, the first enzyme in the peroxisomal beta oxidation of fatty acids. We have found that the FOX1 steady state mRNA level is repressed by glucose, partially induced by ethanol (but not by raffinose) and fully induced by oleic acid as a carbon source. Glucose repression was observed even if cultures were grown to stationary phase; however, if the glucose supply was limited initially then partial induction of FOX1 mRNA occurred upon growth to high cell density. A variety of mutants are known to affect the glucose repression of many genes, including the FOX3 gene which encodes the thiolase activity in peroxisomal beta oxidation. However, upon examination none of these mutants showed de-repression of FOX1 expression. Similarly we investigated the role of two inducers of genes encoding peroxisomal enzymes (namely SNF1 and ADR1). No evidence was found to suggest that either of these plays a significant role in the induction of FOX1 mRNA levels. These observations indicate that the regulation of FOX1 is under the control of as yet unidentified genes involved in catabolite repression and suggest that the regulatory circuit influencing acyl CoA oxidase activity, and hence beta oxidation and peroxisome function, is significantly different than that which might have been assumed from other studies.