Yeast cells arrest in the G1 phase of the cell cycle upon exposure to mating pheromones. As cells commit to a new cycle, G1 CDK activity (Cln/CDK) inhibits signaling through the mating MAPK cascade. Here we show that the target of this inhibition is Ste5, the MAPK cascade scaffold protein.
View Article and Find Full Text PDFDistinct MAP kinase pathways in yeast share several signaling components , including the PAK Ste20 and the MAPKKK Ste11, yet signaling is specific. Mating pheromones trigger an initial step in which Ste20 activates Ste11 , and this requires plasma membrane recruitment of the MAP kinase cascade scaffold protein, Ste5 . Here, we demonstrate an additional role for Ste5 membrane localization.
View Article and Find Full Text PDFActivation of mitogen-activated protein (MAP) kinase cascade signaling by yeast mating pheromones involves recruitment of the Ste5 scaffold protein to the plasma membrane by the receptor-activated Gbetagamma dimer. Here, we identify a putative amphipathic alpha-helical domain in Ste5 that binds directly to phospholipid membranes and is required for membrane recruitment by Gbetagamma. Thus, Ste5 signaling requires synergistic Ste5-Gbetagamma and Ste5-membrane interactions, with neither alone being sufficient.
View Article and Find Full Text PDFThe Saccharomyces cerevisiae kinase Ste20 is a member of the p21-activated kinase (PAK) family with several functions, including pheromone-responsive signal transduction. While PAKs are usually activated by small G proteins and Ste20 binds Cdc42, the role of Cdc42-Ste20 binding has been controversial, largely because Ste20 lacking its entire Cdc42-binding (CRIB) domain retains kinase activity and pheromone response. Here we show that, unlike CRIB deletion, point mutations in the Ste20 CRIB domain that disrupt Cdc42 binding also disrupt pheromone signaling.
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