Abstract
The Saccharomyces cerevisiae Ras proteins control cell growth by regulating the activity of the cAMP-dependent protein kinase (PKA). In this study, a genetic approach was used to identify cellular processes that were regulated by Ras/PKA signaling activity. Interestingly, we found that mutations affecting the C-terminal domain (CTD), of Rpb1p, the largest subunit of RNA polymerase II, were very sensitive to changes in Ras signaling activity. The Rpb1p CTD is a highly conserved, repetitive structure that is a key site of control during the production of a mature mRNA molecule. We found that mutations compromising the CTD were synthetically lethal with alterations that led to elevated levels of Ras/PKA signaling. Altogether, the data suggested that Ras/PKA activity was negatively regulating a protein that functioned in concert with the CTD during RNA pol II transcription. Consistent with this prediction, we found that elevated levels of Ras signaling caused growth and transcription defects that were very similar to those observed in mutants encoding an Rpb1p with a truncated CTD. In all, these data suggested that S. cerevisiae growth control and RNA pol II transcription might be coupled by using the Ras pathway to regulate CTD function.
Highlights
The RAS genes encode small GTP-binding proteins that play an important role in regulating cell proliferation in many eukaryotes [1, 2]
This report describes a functional interaction that exists between the S. cerevisiae Ras/protein kinase (PKA) signaling pathway and the C-terminal domain, or CTD, of Rpb1p, the largest subunit of RNA pol II
This connection was initially suggested by the lethality observed when Ras/PKA activity was elevated in mutants defective for RNA pol II transcription
Summary
MAT␣ his3-⌬200 leu112 lys801 suc2-⌬9 trp101 ura MATa ade101 his3-⌬200 leu112 suc2-⌬9 trp101 ura MAT␣ his3-⌬200 leu112 lys801 sin suc2-⌬9 trp101 ura MAT␣ his3-⌬200 leu112 lys801 sin suc2-⌬9 trp101 ura (pPHY442) MAT␣ his3-⌬200 leu112 lys801 sin suc2-⌬9 trp101 ura (pPHY446; MET3-RAS2Val19) MAT␣ his3-⌬200 leu112 lys801 suc2-⌬9 trp101 ura (pPHY446; MET3-RAS2Val19) MAT␣ his3-⌬200 leu112 lys801 suc2-⌬9 trp101 ura (pRS413) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 ura (pRY2112; RPB1) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 ura (pC6; rpb104 and pRS416) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 ura (pRP114; RPB1 and pJR1040; RAS2Val19) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 ura (pRP114; RPB1 and pRS416) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 ura (pC6; rpb104 and pJR1040; RAS2Val19) MAT␣ his leu trp ura MAT␣ his kin leu trp ura MAT␣ ade his3-⌬200 leu112 lys2-⌬201 rpb5⌬1ϻHIS3 ura (pRP514; rpb5–9) MATa his3-⌬200 leu112 tfa1⌬1ϻHIS3 ura (pNK6/C127F) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 ura (pC6; rpb1–104) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 SRB4–1 ura (pC6; rpb1–104) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 SRB5–1 ura (pC6; rpb1–104) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 SRB6–1 ura (pC6; rpb1–104) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 srb ura (pRY2204; rpb1–104) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 srb ura (pRY2204; rpb1–104) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 srb11ϻhisG ura (pRY2191; rpb1–104) MAT␣ his3-⌬200 leu112 srb4⌬2ϻHIS3 ura (pRY7215; srb4–138) MATa his3-⌬200 leu112 rpb1⌬187ϻHIS3 SRB2–2 ura (pC6; rpb104). Young 82 83 fecting the Ras pathway and those affecting the Rpb1p CTD or proteins that function through this domain These genetic data suggested that the Ras/PKA pathway was negatively regulating activities associated with the Rpb1p CTD. Consistent with this prediction, we found that increased Ras signaling resulted in phenotypes similar to those observed in mutants that encode a Rpb1p with a truncated CTD. These CTD truncation mutants are viable but exhibit specific defects in growth and RNA pol II transcription. The relative merits of a transcriptional control mechanism that directly targets proteins within the RNA pol II holoenzyme is discussed
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