Dynamics of Telomeric DNA Turnover in Yeast

Dynamics of Telomeric DNA Turnover in Yeast

Michael J. McEachern^a, Dana Hager Underwood^a, and Elizabeth H. Blackburn^b
^a Department of Genetics, Life Sciences Building, University of Georgia, Athens, Georgia 30602-7223
^b Department of Biochemistry, University of California, San Francisco, California 94143-0414

Corresponding author: Michael J. McEachern, Life Sciences Bldg., University of Georgia, Athens, GA 30602-7223., mjm{at}arches.uga.edu (E-mail)

Communicating editor: L. S. SYMINGTON

Telomerase adds telomeric DNA repeats to telomeric termini usinga sequence within its RNA subunit as a template. We characterizedtwo mutations in the Kluyveromyces lactis telomerase RNA gene(TER1) template. Each initially produced normally regulatedtelomeres. One mutation, ter1-AA, had a cryptic defect in lengthregulation that was apparent only if the mutant gene was transformedinto a TER1 deletion strain to permit extensive replacementof basal wild-type repeats with mutant repeats. This mutantdiffers from previously studied delayed elongation mutants ina number of properties. The second mutation, TER1-Bcl, whichgenerates a BclI restriction site in newly synthesized telomericrepeats, was indistinguishable from wild type in all phenotypesassayed: cell growth, telomere length, and in vivo telomerasefidelity. TER1-Bcl cells demonstrated that the outer halvesof the telomeric repeat tracts turn over within a few hundredcell divisions, while the innermost few repeats typically resistedturnover for at least 3000 cell divisions. Similarly deep butincomplete turnover was also observed in two other TER1 templatemutants with highly elongated telomeres. These results indicatethat most DNA turnover in functionally normal telomeres is dueto gradual replicative sequence loss and additions by telomerasebut that there are other processes that also contribute to turnover.

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