The WD protein Cpc2p is required for repression of Gcn4 protein activity in yeast in the absence of amino‐acid starvation

Abstract

The CPC2 gene of the budding yeast Saccharomyces cerevisiae encodes a Gβ-like WD protein which is involved in regulating the activity of the general control activator Gcn4p. The CPC2 gene encodes a premRNA which is spliced and constitutively expressed in the presence or absence of amino acids. Loss of CPC2 gene function suppresses a deletion of the GCN2 gene encoding the general control sensor kinase, but not a deletion in the GCN4 gene. The resulting phenotype has resistance against amino-acid analogues. The Neurospora crassa cpc-2 and the rat RACK1 genes are homologues of CPC2 that complement the yeast cpc2 deletion. The cpc2Δ mutation leads to increased transcription of Gcn4p-dependent genes under non-starvation conditions without increasing GCN4 expression or the DNA binding activity of Gcn4p. Cpc2p-mediated transcriptional repression requires the Gcn4p transcriptional activator and a Gcn4p recognition element in the target promoter. Frameshift mutations resulting in a shortened Gβ-like protein cause a different phenotype that has sensitivity against amino-acid analogues similar to a gcn2 deletion. Cpc2p seems to be part of an additional control of Gcn4p activity, independent of its translational regulation.