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Abstract
In this study, we addressed the question of which genes are transcriptionally co-regulated upon proliferation of the endoplasmic reticulum, as induced by an experimental overexpression of cytochrome P450Cm2 (CYP52A4) in Saccharomyces cerevisiae. Using the mRNA differential display technique, six genes were found to be up-regulated: ASN2, MDJ1, YLR194c, YNL208w, YER175, and YGL121c. Genes coding for Dur1.2p, Dal2p, and Sps19p were down-regulated. Two strongly induced genes, which were found to accommodate the peroxisome box (YLR194c) and a 10-bp consensus sequence of genes involved in lipid metabolism (YNL208w) in their promoter regions, were further analyzed with respect to the course of induction, the necessity of the P450 membrane anchor for induction, and the effects of gene disruption on P450Cm2 overexpression. We found that both genes are not essential to overproduce P450Cm2, but their induction was dependent on P450Cm2 membrane integration.