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Topological and Mutational Analysis of Saccharomyces cerevisiae Ste14p, Founding Member of the Isoprenylcysteine Carboxyl Methyltransferase Family
Authors:Julia D. Romano and Susan Michaelis
Affiliation:Department of Cell Biology and Anatomy, The Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, USA.
Abstract:Eukaryotic proteins that terminate in a CaaX motif undergo three processing events: isoprenylation, C-terminal proteolytic cleavage, and carboxyl methylation. In Saccharomyces cerevisiae, the latter step is mediated by Ste14p, an integral endoplasmic reticulum membrane protein. Ste14p is the founding member of the isoprenylcysteine carboxyl methyltransferase (ICMT) family, whose members share significant sequence homology. Because the physiological substrates of Ste14p, such as Ras and the yeast a-factor precursor, are isoprenylated and reside on the cytosolic side of membranes, the Ste14p residues involved in enzymatic activity are predicted to be cytosolically disposed. In this study, we have investigated the topology of Ste14p by analyzing the protease protection of epitope-tagged versions of Ste14p and the glycosylation status of Ste14p-Suc2p fusions. Our data lead to a topology model in which Ste14p contains six membrane spans, two of which form a helical hairpin. According to this model most of the Ste14p hydrophilic regions are located in the cytosol. We have also generated ste14 mutants by random and site-directed mutagenesis to identify residues of Ste14p that are important for activity. Notably, four of the five loss-of-function mutations arising from random mutagenesis alter residues that are highly conserved among the ICMT family. Finally, we have identified a novel tripartite consensus motif in the C-terminal region of Ste14p. This region is similar among all ICMT family members, two phospholipid methyltransferases, several ergosterol biosynthetic enzymes, and a group of bacterial open reading frames of unknown function. Site-directed and random mutations demonstrate that residues in this region play a critical role in the function of Ste14p.
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