Abstract
The Cdc42p GTPase is involved in the signal transduction cascades controlling bud emergence and polarized cell growth in S. cerevisiae. Cells expressing the cdc42(V44A) effector domain mutant allele displayed morphological defects of highly elongated and multielongated budded cells indicative of a defect in the apical-isotropic switch in bud growth. In addition, these cells contained one, two, or multiple nuclei indicative of a G2/M delay in nuclear division and also a defect in cytokinesis and/or cell separation. Actin and chitin were delocalized, and septin ring structure was aberrant and partially delocalized to the tips of elongated cdc42(V44A) cells; however, Cdc42(V44A)p localization was normal. Two-hybrid protein analyses showed that the V44A mutation interfered with Cdc42p's interactions with Cla4p, a p21(Cdc42/Rac)-activated kinase (PAK)-like kinase, and the novel effectors Gic1p and Gic2p, but not with the Ste20p or Skm1p PAK-like kinases, the Bni1p formin, or the Iqg1p IQGAP homolog. Furthermore, the cdc42(V44A) morphological defects were suppressed by deletion of the Swe1p cyclin-dependent kinase inhibitory kinase and by overexpression of Cla4p, Ste20p, the Cdc12 septin protein, or the guanine nucleotide exchange factor Cdc24p. In sum, these results suggest that proper Cdc42p function is essential for timely progression through the apical-isotropic switch and G2/M transition and that Cdc42(V44A)p differentially interacts with a number of effectors and regulators.
Highlights
The Cdc42p GTPase is involved in the signal transduction cascades controlling bud emergence and polarized cell growth in S. cerevisiae
Two-hybrid protein analyses showed that the V44A mutation interfered with Cdc42p’s interactions with Cla4p, a p21(Cdc42/Rac)-activated kinase (PAK)-like kinase, and the novel effectors Gic1p and Gic2p, but not with the Ste20p or Skm1p PAK-like kinases, the Bni1p formin, or the Iqg1p IQGAP homolog
There are a number of S. cerevisiae proteins that function as regulators of Cdc42p activity, including the guanine nucleotide exchange factor Cdc24p (9 –13), and the Bem3p, Rga1p, and Rga2p potential GTPase-activating proteins (GAPs)1 (14 –17)
Summary
TRY3-H was generated by integrating a trp1::HIS3 fragment into TRY1– 6B [6]. TRY11 was generated by crossing Y604 with JSO-1B. TRY15 was generated by crossing TRY5–3A with DLY1028. MATa gal MATa cdc his leu trp ura MAT␣ ura his trp integrated lexAop-LEU2 integrated lexAop-lacZ. MATa ade ste20::ADE2–3 his leu112 trp1-⌬1 ura can MATa/MAT␣ ⌬cdc42::TRP1/ϩ his3⌬200/ϩ his4/ϩ leu2/ϩ can1/ϩ lys2–801/lys801 trp1-⌬1/trp1⌬101 ade2–101/ϩ ura3–52/ura MATa ura ade101 lys801 his3-⌬200 trp1-⌬1 MATa ade101 his leu112 trp1-D1 ura can100 MAT␣ cdc his leu ura trp gal RDN1::LEU2 MATa ⌬swel::LEU2 ade ura trp his MATa cdc leu ura MATa ade leu his trp ura cla4::TRP1 MATa ade leu his trp ura cla4::trp1::HIS3 MATa/MAT␣ ade2/ϩ leu2/leu his3/his trp1/trp1-⌬101 ⌬cdc42::TRP1/ϩ cla4::trp1::HIS3/ϩ ura3– 52:cdc42V44A:URA3/ura MATa/MAT␣⌬cdc42::TRP1/ϩ ura3–52:cdc42V44A:URA3/ura leu2/ϩ lys2–801/lys801 his3⌬200/ ϩ his4/ϩ trp1-⌬1/trp1-⌬101 ade2–101/ϩ can1/ϩ MAT␣ ⌬cdc42::TRP1 ura3:cdc42V44A:URA3 leu lys801 his trp1-⌬101 ade101 MAT␣⌬cdc42::TRP1 ura3:cdc42V44A:URA3 leu lys801 his trp1-⌬101 MATa/␣ ura3–52/ura ade2–101/ϩ lys2–801/ϩ his3-⌬200/ϩ trp1-⌬1/ϩ cdc12–5/ϩleu2/ϩ MAT␣ leu ura trp his MATa/MAT␣ ⌬cdc42::TRP1/ϩ ura3:cdc42V44A:URA3/ura ade2–101/ade2 ⌬swe1::LEU2/ϩ leu2/leu trp1-⌬101/trp his2/ϩ his4/ϩ lys2–801/ϩ MAT␣ ⌬cdc42::TRP1 ura3:cdc42V44A:URA3 swe1::LEU2 leu ura trp ade MATa ⌬cdc42::TRP1 ura3:cdc42V44A:URA3 ade leu ura trp ade MATa swe1::LEU2 leu ura trp ade.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
