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Telomerase-null survivor screening identifies novel telomere recombination regulators.


ABSTRACT: Telomeres are protein-DNA structures found at the ends of linear chromosomes and are crucial for genome integrity. Telomeric DNA length is primarily maintained by the enzyme telomerase. Cells lacking telomerase will undergo senescence when telomeres become critically short. In Saccharomyces cerevisiae, a very small percentage of cells lacking telomerase can remain viable by lengthening telomeres via two distinct homologous recombination pathways. These "survivor" cells are classified as either Type I or Type II, with each class of survivor possessing distinct telomeric DNA structures and genetic requirements. To elucidate the regulatory pathways contributing to survivor generation, we knocked out the telomerase RNA gene TLC1 in 280 telomere-length-maintenance (TLM) gene mutants and examined telomere structures in post-senescent survivors. We uncovered new functional roles for 10 genes that affect the emerging ratio of Type I versus Type II survivors and 22 genes that are required for Type II survivor generation. We further verified that Pif1 helicase was required for Type I recombination and that the INO80 chromatin remodeling complex greatly affected the emerging frequency of Type I survivors. Finally, we found the Rad6-mediated ubiquitination pathway and the KEOPS complex were required for Type II recombination. Our data provide an independent line of evidence supporting the idea that these genes play important roles in telomere dynamics.

SUBMITTER: Hu Y 

PROVIDER: S-EPMC3547846 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Telomerase-null survivor screening identifies novel telomere recombination regulators.

Hu Yan Y   Tang Hong-Bo HB   Liu Ning-Ning NN   Tong Xia-Jing XJ   Dang Wei W   Duan Yi-Min YM   Fu Xiao-Hong XH   Zhang Yang Y   Peng Jing J   Meng Fei-Long FL   Zhou Jin-Qiu JQ  

PLoS genetics 20130117 1


Telomeres are protein-DNA structures found at the ends of linear chromosomes and are crucial for genome integrity. Telomeric DNA length is primarily maintained by the enzyme telomerase. Cells lacking telomerase will undergo senescence when telomeres become critically short. In Saccharomyces cerevisiae, a very small percentage of cells lacking telomerase can remain viable by lengthening telomeres via two distinct homologous recombination pathways. These "survivor" cells are classified as either T  ...[more]

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