Telomere length regulation by Rif1 protein from .

Rif1 is a large multifaceted protein involved in various processes of DNA metabolism - from telomere length regulation and replication to double-strand break repair. The mechanistic details of its action, however, are often poorly understood. Here, we report functional characterization of the Rif1 homologue from methylotrophic thermotolerant budding yeast DL-1. We show that, similar to other yeast species, Rif1 suppresses telomerase-dependent telomere elongation. We uncover two novel modes of Rif1 recruitment at telomeres: via direct DNA binding and through the association with the Ku heterodimer. Both of these modes (at least partially) require the intrinsically disordered N-terminal extension - a region of the protein present exclusively in yeast species. We also demonstrate that Rif1 binds Stn1 and promotes its accumulation at telomeres in .