The roles of PUT3, URE2, and GLN3 regulatory proteins in the proline utilization pathway ofSaccharomyces cerevisiae

Abstract

The yeast Saccharomyces cerevisiae can use alternative nitrogen sources such as allantoin, urea, γ-aminobutyrate, or proline when preferred nitrogen sources such as asparagine, glutamine, or ammonium ions are unavailable in the environment. To use proline as the sole nitrogen source, cells must activate the expression of the proline transporters and the genes that encode the catabolic enzymes proline oxidase (PUT1) and Δ1-pyrroline-5-carboxylate dehydrogenase (PUT2). Transcriptional activation of the PUT genes requires the PUT3 regulatory protein, proline, and relief from nitrogen repression. PUT3 is a 979 amino acid protein that binds a short DNA sequence in the promoters of PUT1 and PUT2, independent of the presence of proline. The functional domains of PUT3 have been studied by biochemical and molecular tests and analysis of activator-constitutive and activator-defective mutant proteins. Mutations in the URE2 gene relieve nitrogen repression, permitting inducer-independent transcription of the PUT genes in the presence of repressing nitrogen sources. The GLN3 protein that activates the expression of many genes in alternative nitrogen source pathways is not required for the expression of the PUT genes under inducing, derepressing conditions (proline) or noninducing, repressing conditions (ammonia). Although it has been speculated that the URE2 protein antagonizes the action of GLN3 in the regulation of many nitrogen assimilatory pathways, URE2 appears to act independently of GLN3 in the proline-utilization pathway. Key words: Saccharomyces cerevisiae, proline utilization, nitrogen repression.