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Literature DB >> 15126386

EXO1 plays a role in generating type I and type II survivors in budding yeast.

Abstract

Telomerase-defective budding yeast cells escape senescence by using homologous recombination to amplify telomeric or subtelomeric structures. Similarly, human cells that enter senescence can use homologous recombination for telomere maintenance, when telomerase cannot be activated. Although recombination proteins required to generate telomerase-independent survivors have been intensively studied, little is known about the nucleases that generate the substrates for recombination. Here we demonstrate that the Exo1 exonuclease is an initiator of the recombination process that allows cells to escape senescence and become immortal in the absence of telomerase. We show that EXO1 is important for generating type I survivors in yku70delta mre11delta cells and type II survivors in tlc1delta cells. Moreover, in tlc1delta cells, EXO1 seems to contribute to the senescence process itself.

Entities: Gene Species

Mesh：

Substances：

Year: 2004 PMID： 15126386 PMCID： PMC1470825 DOI： 10.1534/genetics.166.4.1641

Source DB: PubMed Journal: Genetics ISSN： 0016-6731 Impact factor: 4.562

34 in total

1. EXO1 and MSH6 are high-copy suppressors of conditional mutations in the MSH2 mismatch repair gene of Saccharomyces cerevisiae.

Authors: T Sokolsky; E Alani
Journal: Genetics Date: 2000-06 Impact factor: 4.562

2. RAD50 and RAD51 define two pathways that collaborate to maintain telomeres in the absence of telomerase.

Authors: S Le; J K Moore; J E Haber; C W Greider
Journal: Genetics Date: 1999-05 Impact factor: 4.562

3. Recombination-mediated lengthening of terminal telomeric repeats requires the Sgs1 DNA helicase.

Authors: H Cohen; D A Sinclair
Journal: Proc Natl Acad Sci U S A Date: 2001-03-06 Impact factor: 11.205

4. Two survivor pathways that allow growth in the absence of telomerase are generated by distinct telomere recombination events.

Authors: Q Chen; A Ijpma; C W Greider
Journal: Mol Cell Biol Date: 2001-03 Impact factor: 4.272

5. Genetic requirements for RAD51- and RAD54-independent break-induced replication repair of a chromosomal double-strand break.

Authors: L Signon; A Malkova; M L Naylor; H Klein; J E Haber
Journal: Mol Cell Biol Date: 2001-03 Impact factor: 4.272

6. Telomere-telomere recombination is an efficient bypass pathway for telomere maintenance in Saccharomyces cerevisiae.

Authors: S C Teng; V A Zakian
Journal: Mol Cell Biol Date: 1999-12 Impact factor: 4.272

7. EXO1 and MSH4 differentially affect crossing-over and segregation.

Authors: K A Khazanehdari; R H Borts
Journal: Chromosoma Date: 2000 Impact factor: 4.316

8. Exo1 roles for repair of DNA double-strand breaks and meiotic crossing over in Saccharomyces cerevisiae.

Authors: H Tsubouchi; H Ogawa
Journal: Mol Biol Cell Date: 2000-07 Impact factor: 4.138

9. DNA length dependence of the single-strand annealing pathway and the role of Saccharomyces cerevisiae RAD59 in double-strand break repair.

Authors: N Sugawara; G Ira; J E Haber
Journal: Mol Cell Biol Date: 2000-07 Impact factor: 4.272

10. The Saccharomyces cerevisiae WRN homolog Sgs1p participates in telomere maintenance in cells lacking telomerase.

Authors: F B Johnson; R A Marciniak; M McVey; S A Stewart; W C Hahn; L Guarente
Journal: EMBO J Date: 2001-02-15 Impact factor: 11.598

38 in total

1. Telomerase- and recombination-independent immortalization of budding yeast.

Authors: Laura Maringele; David Lydall
Journal: Genes Dev Date: 2004-10-15 Impact factor: 11.361

2. An increase in telomere sister chromatid exchange in murine embryonic stem cells possessing critically shortened telomeres.

Authors: Yisong Wang; Natalie Erdmann; Richard J Giannone; Jun Wu; Marla Gomez; Yie Liu
Journal: Proc Natl Acad Sci U S A Date: 2005-07-06 Impact factor: 11.205

Review 3. DNA damage response at functional and dysfunctional telomeres.

Authors: Maria Pia Longhese
Journal: Genes Dev Date: 2008-01-15 Impact factor: 11.361

4. Mutant telomeric repeats in yeast can disrupt the negative regulation of recombination-mediated telomere maintenance and create an alternative lengthening of telomeres-like phenotype.

Authors: Laura H Bechard; Bilge D Butuner; George J Peterson; Will McRae; Zeki Topcu; Michael J McEachern
Journal: Mol Cell Biol Date: 2008-11-24 Impact factor: 4.272

5. Polymerase epsilon is required to maintain replicative senescence.

Authors: Abhyuday M Deshpande; Iglika G Ivanova; Vasil Raykov; Yuan Xue; Laura Maringele
Journal: Mol Cell Biol Date: 2011-02-14 Impact factor: 4.272

6. Alternative lengthening of telomeres: recurrent cytogenetic aberrations and chromosome stability under extreme telomere dysfunction.

Authors: Despoina Sakellariou; Maria Chiourea; Christina Raftopoulou; Sarantis Gagos
Journal: Neoplasia Date: 2013-11 Impact factor: 5.715

7. Modeling growth and telomere dynamics in Saccharomyces cerevisiae.

Authors: Peter Olofsson; Alison A Bertuch
Journal: J Theor Biol Date: 2009-12-16 Impact factor: 2.691

8. A sequence-dependent exonuclease activity from Tetrahymena thermophila.

Authors: Hui-I Kao Tom; Carol W Greider
Journal: BMC Biochem Date: 2010-11-16 Impact factor: 4.059

9. Exonuclease-1 deletion impairs DNA damage signaling and prolongs lifespan of telomere-dysfunctional mice.

Authors: Sonja Schaetzlein; N R Kodandaramireddy; Zhenyu Ju; Andre Lechel; Anna Stepczynska; Dana R Lilli; Alan B Clark; Cornelia Rudolph; Florian Kuhnel; Kaichun Wei; Brigitte Schlegelberger; Peter Schirmacher; Thomas A Kunkel; Roger A Greenberg; Winfried Edelmann; K Lenhard Rudolph
Journal: Cell Date: 2007-09-07 Impact factor: 41.582

Review 10. Taming the tiger by the tail: modulation of DNA damage responses by telomeres.

Authors: David Lydall
Journal: EMBO J Date: 2009-07-23 Impact factor: 11.598