Point Mutations Identify a Conserved Region of the Saccharomyces cerevisiae AFR1 Gene That Is Essential for Both the Pheromone Signaling and Morphogenesis Functions

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Point Mutations Identify a Conserved Region of the Saccharomyces cerevisiae AFR1 Gene That Is Essential for Both the Pheromone Signaling and Morphogenesis Functions

Cordell R. DeMattei^a, Colleen P. Davis^a, and James B. Konopka^a
^a Department of Molecular Genetics and Microbiology, State University of New York, Stony Brook, New York 11794-5222

Corresponding author: James B. Konopka, Department of Molecular Genetics and Microbiology, State University of New York, Stony Brook, NY 11794-5222., konopka{at}asterix.bio.sunysb.edu (E-mail)

Communicating editor: F. WINSTON

Mating pheromone receptors activate a G protein signal pathwaythat leads to the conjugation of the yeast Saccharomyces cerevisiae.This pathway also induces the production of Afr1p, a proteinthat negatively regulates pheromone receptor signaling and isrequired to form pointed projections of new growth that becomethe site of cell fusion during mating. Afr1p lacks strong similarityto any well-characterized proteins to help predict how it acts.Therefore, we investigated the relationship between the differentfunctions of Afr1p by isolating and characterizing seven mutantsthat were defective in regulating pheromone signaling. The AFR1mutants were also defective when expressed as fusions to STE2,the ${alpha}$ -factor receptor, indicating that the mutant Afr1 proteinsare defective in function and not in co-localizing with receptors.The mutant genes contained four distinct point mutations thatall occurred between codons 254 and 263, identifying a regionthat is critical for AFR1 function. Consistent with this, wefound that the corresponding region is very highly conservedin the Afr1p homologs from the yeasts S. uvarum and S. douglasii.In contrast, there were no detectable effects on pheromone signalingcaused by deletion or overexpression of YER158c, an open readingframe with overall sequence similarity to Afr1p that lacks thisessential region. Interestingly, all of the AFR1 mutants showeda defect in their ability to form mating projections that wasproportional to their defect in regulating pheromone signaling.This suggests that both functions may be due to the same actionof Afr1p. Thus, these studies identify a specific region ofAfr1p that is critical for its function in both signaling andmorphogenesis.

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