The Ras/PKA Signaling Pathway of Saccharomyces cerevisiae Exhibits a Functional Interaction With the Sin4p Complex of the RNA Polymerase II Holoenzyme

The Ras/PKA Signaling Pathway of Saccharomyces cerevisiae Exhibits a Functional Interaction With the Sin4p Complex of the RNA Polymerase II Holoenzyme

Susie C. Howard^a, Ya-Wen Chang^b, Yelena V. Budovskaya^a, and Paul K. Herman^a,b
^a Department of Molecular Genetics, The Ohio State University, Columbus, Ohio 43210
^b Program in Molecular, Cellular and Developmental Biology, The Ohio State University, Columbus, Ohio 43210

Corresponding author: Paul K. Herman, Department of Molecular Genetics, The Ohio State University, 484 W. Twelfth Ave., Room 984, Columbus, OH 43210., herman.81{at}osu.edu (E-mail)

Communicating editor: F. WINSTON

Saccharomyces cerevisiae cells enter into the G₀-like restingstate, stationary phase, in response to specific types of nutrientlimitation. We have initiated a genetic analysis of this restingstate and have identified a collection of rye mutants that exhibita defective transcriptional response to nutrient deprivation.These transcriptional defects appear to disrupt the controlof normal growth because the rye mutants are unable to enterinto a normal stationary phase upon nutrient deprivation. Inthis study, we examined the mutants in the rye1 complementationgroup and found that rye1 mutants were also defective for stationaryphase entry. Interestingly, the RYE1 gene was found to be identicalto SIN4, a gene that encodes a component of the yeast Mediatorcomplex within the RNA polymerase II holoenzyme. Moreover, mutationsthat affected proteins within the Sin4p module of the Mediatorexhibited specific genetic interactions with the Ras proteinsignaling pathway. For example, mutations that elevated thelevels of Ras signaling, like RAS2^val19, were synthetic lethalwith sin4. In all, our data suggest that specific proteins withinthe RNA polymerase II holoenzyme might be targets of signaltransduction pathways that are responsible for coordinatinggene expression with cell growth.

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