Characterization of the telomerase modulating activities of yeast DNA helicases.

Eukaryotes with linear chromosomes circumvent the end replication problem via the action of a specialized ribonucleoprotein reverse transcriptase known as telomerase. Cells lacking telomerase activity will senesce when their chromosome ends shorten to a critical length. In contrast, cancer cells can become immortalized by upregulating telomerase to lengthen telomeres during each cycle of DNA replication. Thus, the regulation of telomerase is critical for normal telomere homeostasis. Of the various known ways that telomerase activity is modulated in vivo, recent studies have demonstrated that DNA helicases are involved. In Saccharomyces cerevisiae, the Hrq1 and Pif1 helicases act in a pathway that regulates telomerase extension at telomeres and at DNA double-strand DNA breaks. In vitro analysis demonstrates that when these helicases are combined in reactions, they synergistically inhibit or stimulate telomerase activity depending on which helicase is catalytically active. Here, we describe the methods for the overproduction and purification of Hrq1 and Pif1. We also report the preparation of partially purified cell extracts with telomerase activity and how the effects of these helicase on telomerase activity can be assessed in vitro.