The Saccharomyces cerevisiae CDC42 gene product, a member of the ras superfamily of low-molecularweight GTP-binding proteins, is involved in the control of cell polarity. We have analyzed the effects of three CDC42 mutations (Gly to Gin to and Asp to in the putative GTP-binding and hydrolysis domains and one mutation (Cys to in the putative isoprenylation site. The incapable of complementing the cdc42-l' mutation and was recessive to both wild-type and cdc42-1'. In double-mutant alleles, the cdc42srel188 mutation was capable of suppressing the dominant lethality associated with the three putative GTP-binding and hydrolysis mutations, suggesting that isoprenylation is necessary for the activity of the wild-type and mutant proteins.The Saccharomyces cerevisiae CDC42 gene product is involved in the control of several morphogenetic events during the cell cycle, including the generation of cell polarity, development of normal cell shape, localization of secretion, and deposition of cell-surface material (1,2,20). Its predicted amino acid sequence (20) is similar to that of members of the ras superfamily of low-molecular-weight GTP-binding proteins from S. cerevisiae and higher eukaryotes (16), especially in those domains that have been implicated in the binding and hydrolysis of GTP and in carboxylterminal modifications. CDC42 shows the greatest degree of sequence similarity to the products of two related human cDNAs, CDC42Hs (39) and G25K (27), which encode isoforms of the low-molecular-weight GTP-binding protein previously referred to as Gp or G25K (11, 33). Both of these human gene products are 80% identical (88% related amino acids) in predicted amino acid sequence to the S. cerevisiae CDC42 gene product, which we have redesignated CDC42Sc, and they are 95% identical to each other. These human genes, when expressed in S. cerevisiae under the control of a yeast promoter on a multicopy plasmid, can functionally complement the cdc42-1's mutation (27, 39). The Gp/G25K protein is an excellent in vitro phosphosubstrate for the epidermal growth factor receptor tyrosine kinase (17), but its in vivo function is unknown.In order to further elucidate the role of the CDC42Sc gene product in the control of cell polarity, we have generated new mutations in CDC42Sc by using site-directed mutagenesis (see Fig. 1). A carboxyl-terminal mutation predicted to * Corresponding author.eliminate isoprenylation results in a nonfunctional product. Mutations in the putative guanine-nucleotide-binding domain lead to a lethal phenotype that can be suppressed by combination with the carboxyl-terminal mutation. This lethality is manifested as several different and unique morphological abnormalities, which have provided clues to the function of the CDC42Sc gene product in controlling cell polarity.
MATERIALS AND METHODSReagents. Enzymes, M13 dideoxy sequencing kit, mutagenesis kit, and other reagents were obtained from standard commercial sources and used according to the suppliers' Media, growth conditions, and strains. Conditions for...
