HEM13 of Saccharomyces cerevisiae encodes coproporphyrinogen oxidase, an enzyme in the heme biosynthetic pathway. Expression of HEM13 is repressed by oxygen and heme. This study investigated the regulatory pathway responsible for the regulation of HEM13 expression. The transcriptional activator HAP1 is demonstrated to be required for the full-level expression of HEM13 in the absence of heme. It is also shown that the repression of HEM13 transcription caused by heme involves the HAP1 and ROX1 gene products; a mutation in either gene results in derepression of HEM13 expression. The heme-dependent expression of ROX1 was found to require functional HAP1, leading one to propose that repression of HEM13 results from a pathway involving HAP1-mediated regulation of ROX1 transcription in response to heme levels followed by ROX1-mediated repression of HEM13 transcription. In support of this model, expression of ROX1 under control of the GAL promoter was found to result in repression of HEM13 transcription in a hap1 mutant strain. The ability of ROX1 encoded by the galactose-inducible ROX1 construct to function in the absence of HAP1 indicates that the only role of HAP1 in repression of HEM13 is to activate ROX1 transcription.
Control of enzyme synthesis in the lysine biosynthetic pathway of Saccharomyces cerevisiae. Evidence for a regulatory role of gene LYS14
