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Items: 1 to 20 of 57

1.

Shelterin-like proteins and Yku inhibit nucleolytic processing of Saccharomyces cerevisiae telomeres.

Bonetti D, Clerici M, Anbalagan S, Martina M, Lucchini G, Longhese MP.

PLoS Genet. 2010 May 27;6(5):e1000966. doi: 10.1371/journal.pgen.1000966.

2.

How telomeres solve the end-protection problem.

de Lange T.

Science. 2009 Nov 13;326(5955):948-52. doi: 10.1126/science.1170633.

3.

Conservation of telomere protein complexes: shuffling through evolution.

Linger BR, Price CM.

Crit Rev Biochem Mol Biol. 2009 Nov-Dec;44(6):434-46. doi: 10.3109/10409230903307329. Review.

4.

In Saccharomyces cerevisiae, yKu and subtelomeric core X sequences repress homologous recombination near telomeres as part of the same pathway.

Marvin ME, Griffin CD, Eyre DE, Barton DB, Louis EJ.

Genetics. 2009 Oct;183(2):441-51, 1SI-12SI. doi: 10.1534/genetics.109.106674. Epub 2009 Aug 3.

5.

The association of yKu with subtelomeric core X sequences prevents recombination involving telomeric sequences.

Marvin ME, Becker MM, Noel P, Hardy S, Bertuch AA, Louis EJ.

Genetics. 2009 Oct;183(2):453-67, 1SI-13SI. doi: 10.1534/genetics.109.106682. Epub 2009 Aug 3.

6.

Ku86 represses lethal telomere deletion events in human somatic cells.

Wang Y, Ghosh G, Hendrickson EA.

Proc Natl Acad Sci U S A. 2009 Jul 28;106(30):12430-5. doi: 10.1073/pnas.0903362106. Epub 2009 Jul 6.

7.

Yeast telomerase and the SUN domain protein Mps3 anchor telomeres and repress subtelomeric recombination.

Schober H, Ferreira H, Kalck V, Gehlen LR, Gasser SM.

Genes Dev. 2009 Apr 15;23(8):928-38. doi: 10.1101/gad.1787509.

8.

Sequential loading of Saccharomyces cerevisiae Ku and Cdc13p to telomeres.

Wu TJ, Chiang YH, Lin YC, Tsai CR, Yu TY, Sung MT, Lee YH, Lin JJ.

J Biol Chem. 2009 May 8;284(19):12801-8. doi: 10.1074/jbc.M809131200. Epub 2009 Mar 9.

9.

Cdk1-dependent phosphorylation of Cdc13 coordinates telomere elongation during cell-cycle progression.

Li S, Makovets S, Matsuguchi T, Blethrow JD, Shokat KM, Blackburn EH.

Cell. 2009 Jan 9;136(1):50-61. doi: 10.1016/j.cell.2008.11.027.

10.

Sae2, Exo1 and Sgs1 collaborate in DNA double-strand break processing.

Mimitou EP, Symington LS.

Nature. 2008 Oct 9;455(7214):770-4. doi: 10.1038/nature07312. Epub 2008 Sep 21.

11.

Sgs1 helicase and two nucleases Dna2 and Exo1 resect DNA double-strand break ends.

Zhu Z, Chung WH, Shim EY, Lee SE, Ira G.

Cell. 2008 Sep 19;134(6):981-94. doi: 10.1016/j.cell.2008.08.037.

12.

How shelterin protects mammalian telomeres.

Palm W, de Lange T.

Annu Rev Genet. 2008;42:301-34. doi: 10.1146/annurev.genet.41.110306.130350. Review.

PMID:
18680434
13.

Distinct faces of the Ku heterodimer mediate DNA repair and telomeric functions.

Ribes-Zamora A, Mihalek I, Lichtarge O, Bertuch AA.

Nat Struct Mol Biol. 2007 Apr;14(4):301-7. Epub 2007 Mar 11.

PMID:
17351632
14.

Dynamics of replication-independent histone turnover in budding yeast.

Dion MF, Kaplan T, Kim M, Buratowski S, Friedman N, Rando OJ.

Science. 2007 Mar 9;315(5817):1405-8.

15.
16.

Telomere-related genome instability in cancer.

De Lange T.

Cold Spring Harb Symp Quant Biol. 2005;70:197-204. Review.

PMID:
16869754
17.

Subtelomeric factors antagonize telomere anchoring and Tel1-independent telomere length regulation.

Hediger F, Berthiau AS, van Houwe G, Gilson E, Gasser SM.

EMBO J. 2006 Feb 22;25(4):857-67. Epub 2006 Feb 9.

18.

How the human telomeric proteins TRF1 and TRF2 recognize telomeric DNA: a view from high-resolution crystal structures.

Court R, Chapman L, Fairall L, Rhodes D.

EMBO Rep. 2005 Jan;6(1):39-45. Erratum in: EMBO Rep. 2005 Feb;6(2):191.

19.

Structure of human POT1 bound to telomeric single-stranded DNA provides a model for chromosome end-protection.

Lei M, Podell ER, Cech TR.

Nat Struct Mol Biol. 2004 Dec;11(12):1223-9. Epub 2004 Nov 21.

PMID:
15558049
20.

Cell cycle-dependent regulation of yeast telomerase by Ku.

Fisher TS, Taggart AK, Zakian VA.

Nat Struct Mol Biol. 2004 Dec;11(12):1198-205. Epub 2004 Nov 7.

PMID:
15531893

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