Abstract
Checkpoint signaling requires two conserved phosphatidylinositol 3-kinase-related protein kinases (PIKKs): ATM and ATR. In budding yeast, Tel1 and Mec1 correspond to ATM and ATR, respectively. The Tel2-Tti1-Tti2 (TTT) complex connects to the Rvb1-Rvb2-Tah1-Pih1 (R2TP) complex for the protein stability of PIKKs; however, TTT-R2TP interaction only partially mediates ATM and ATR protein stabilization. How TTT controls protein stability of ATM and ATR remains to be precisely determined. Here we show that Asa1, like Tel2, plays a major role in stabilization of newly synthesized Mec1 and Tel1 proteins whereas Pih1 contributes to Mec1 and Tel1 stability at high temperatures. Although Asa1 and Pih1 both interact with Tel2, no Asa1-Pih1 interaction is detected. Pih1 is distributed in both the cytoplasm and nucleus wheres Asa1 localizes largely in the cytoplasm. Asa1 and Pih1 are required for proper DNA damage checkpoint signaling. Our findings provide a model in which two different Tel2 pathways promote protein stabilization of Mec1 and Tel1 in budding yeast.
Highlights
Chromosomes are constantly challenged by exogenous and endogenous threats
We investigated the mechanisms underlying the stability of ATM/ATR-related protein kinase Mec1 and Tel1, which control the DNA damage response in budding yeast
Our data are consistent with the model in which two separate pathways regulate protein stability of Mec1 and Tel1, and contribute to proper DNA damage response in budding yeast
Summary
We investigated the mechanisms underlying the stability of ATM/ATR-related protein kinase Mec and Tel, which control the DNA damage response in budding yeast. To this end, we applied genetic approaches in combination with a new version of the auxininducible degradation (AID) system. Our data are consistent with the model in which two separate pathways regulate protein stability of Mec and Tel, and contribute to proper DNA damage response in budding yeast
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