Paschini M, Mandell EK, Lundblad V

In Saccharomyces cerevisiae, Cdc13, Stn1, and Ten1 are essential for both chromosome capping and telomere length homeostasis. These three proteins have been proposed to perform their roles at chromosome termini as a telomere-dedicated t-RPA complex, on the basis of several parallels with the conventional RPA complex. In this study, we ...

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have used several approaches to test whether a predicted alpha-helix in the N-terminal domain of the S. cerevisiae Stn1 protein is required for formation of the proposed t-RPA complex, in a manner analogous to the comparable helix in Rpa2. Analysis of a panel of Rpa2-OB(Stn1) chimeras indicates that whether a chimeric protein contains the Rpa2 or Stn1 version of this alpha-helix dictates its ability to function in place of Rpa2 or Stn1, respectively. In addition, mutations introduced into a hydrophobic surface of the predicted Stn1 alpha-helix eliminated association with Ten1. Strikingly, allele-specific suppression of a stn1 mutation in this helix (stn1-L164D) by a ten1 mutation (ten1-D138Y) resulted in a restored Stn1-Ten1 interaction, supporting the identification of a Stn1-Ten1 interface. We conclude that Stn1 interacts with Ten1 through an alpha-helix, in a manner analogous to the interaction between the comparable subunits of the RPA complex.

Date: May. 01, 2010

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