Genomic analysis of PIS1 gene expression.

TitleGenomic analysis of PIS1 gene expression.
Publication TypeJournal Article
Year of Publication2005
AuthorsGardocki ME, Bakewell M, Kamath D, Robinson K, Borovicka K, Lopes JM
JournalEukaryot Cell
Volume4
Issue3
Pagination604-14
Date Published2005 Mar
ISSN1535-9778
KeywordsGene Expression Profiling, Gene Expression Regulation, Fungal, Gene Silencing, Genome, Fungal, Glycerol, Oligonucleotide Array Sequence Analysis, Peroxisomes, Phospholipids, Promoter Regions, Genetic, Recombinant Fusion Proteins, Saccharomyces cerevisiae, Transferases (Other Substituted Phosphate Groups)
Abstract

The Saccharomyces cerevisiae PIS1 gene is essential and required for the final step in the de novo synthesis of phosphatidylinositol. Transcription of the PIS1 gene is uncoupled from the factors that regulate other yeast phospholipid biosynthetic genes. Most of the phospholipid biosynthetic genes are regulated in response to inositol and choline via a regulatory circuit that includes the Ino2p:Ino4p activator complex and the Opi1p repressor. PIS1 is regulated in response to carbon source and anaerobic growth conditions. Both of these regulatory responses are modest, which is not entirely surprising since PIS1 is essential. However, even modest regulation of PIS1 expression has been shown to affect phosphatidylinositol metabolism and to affect cell cycle progression. This prompted the present study, which employed a genomic screen, database mining, and more traditional promoter analysis to identify genes that affect PIS1 expression. A screen of the viable yeast deletion set identified 120 genes that affect expression of a PIS1-lacZ reporter. The gene set included several peroxisomal genes, silencing genes, and transcription factors. Factors suggested by database mining, such as Pho2 and Yfl044c, were also found to affect PIS1-lacZ expression. A PIS1 promoter deletion study identified an upstream regulatory sequence element that was required for carbon source regulation located downstream of three previously defined upstream activation sequence elements. Collectively, these studies demonstrate how a collection of genomic and traditional strategies can be implemented to identify a set of genes that affect the regulation of an essential gene.

DOI10.1128/EC.4.3.604-614.2005
Alternate JournalEukaryotic Cell
PubMed ID15755922