Curr Biol. 2001 Jan 23;11(2):125-9.

SGS1 is required for telomere elongation in the absence of telomerase.

Huang P, Pryde FE, Lester D, Maddison RL, Borts RH, Hickson ID, Louis EJ.

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Department of Biochemistry, University of Oxford, Oxford OX1 3QU, United Kingdom.

Abstract

In S. cerevisiae, mutations in genes that encode telomerase components, such as the genes EST1, EST2, EST3, and TLC1, result in the loss of telomerase activity in vivo. Two telomerase-independent mechanisms can overcome the resulting senescence. Type I survival is characterized by amplification of the subtelomeric Y' elements with a short telomere repeat tract at the terminus. Type II survivors arise through the abrupt addition of long tracts of telomere repeats. Both mechanisms are dependent on RAD52 and on either RAD50 or RAD51. We show here that the telomere elongation pathway in yeast (type II) is dependent on SGS1, the yeast homolog of the gene products of Werner's (WRN) and Bloom's (BLM) syndromes. Survival in the absence of SGS1 and EST2 is dependent upon RAD52 and RAD51 but not RAD50. We propose that the RecQ family helicases are required for processing a DNA structure specific to eroding telomeres.

PMID:: 11231130; [PubMed - indexed for MEDLINE]

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Recombination-mediated lengthening of terminal telomeric repeats requires the Sgs1 DNA helicase. [Proc Natl Acad Sci U S A. 2001]
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Cited by 51 PubMed Central articles

Telomerase-null survivor screening identifies novel telomere recombination regulators. [PLoS Genet. 2013]
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SGS1 is required for telomere elongation in the absence of telomerase.
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