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Items: 1 to 20 of 117


Genomic mapping of single-stranded DNA in hydroxyurea-challenged yeasts identifies origins of replication.

Feng W, Collingwood D, Boeck ME, Fox LA, Alvino GM, Fangman WL, Raghuraman MK, Brewer BJ.

Nat Cell Biol. 2006 Feb;8(2):148-55. Epub 2006 Jan 22.


Damage-induced phosphorylation of Sld3 is important to block late origin firing.

Lopez-Mosqueda J, Maas NL, Jonsson ZO, Defazio-Eli LG, Wohlschlegel J, Toczyski DP.

Nature. 2010 Sep 23;467(7314):479-83. doi: 10.1038/nature09377.


Replication in hydroxyurea: it's a matter of time.

Alvino GM, Collingwood D, Murphy JM, Delrow J, Brewer BJ, Raghuraman MK.

Mol Cell Biol. 2007 Sep;27(18):6396-406. Epub 2007 Jul 16.


Limiting amounts of budding yeast Rad53 S-phase checkpoint activity results in increased resistance to DNA alkylation damage.

Cordón-Preciado V, Ufano S, Bueno A.

Nucleic Acids Res. 2006;34(20):5852-62. Epub 2006 Oct 24.


Centromere replication timing determines different forms of genomic instability in Saccharomyces cerevisiae checkpoint mutants during replication stress.

Feng W, Bachant J, Collingwood D, Raghuraman MK, Brewer BJ.

Genetics. 2009 Dec;183(4):1249-60. doi: 10.1534/genetics.109.107508. Epub 2009 Oct 5.


Genome-wide localization of pre-RC sites and identification of replication origins in fission yeast.

Hayashi M, Katou Y, Itoh T, Tazumi A, Yamada Y, Takahashi T, Nakagawa T, Shirahige K, Masukata H.

EMBO J. 2007 Mar 7;26(5):1327-39. Epub 2007 Feb 15. Erratum in: EMBO J. 2007 Jun 6;26(11):2821. Tazumi, Mitsutoshi [corrected to Tazumi, Atsutoshi].


Checkpoint independence of most DNA replication origins in fission yeast.

Mickle KL, Ramanathan S, Rosebrock A, Oliva A, Chaudari A, Yompakdee C, Scott D, Leatherwood J, Huberman JA.

BMC Mol Biol. 2007 Dec 19;8:112.


Checkpoint effects and telomere amplification during DNA re-replication in fission yeast.

Mickle KL, Oliva A, Huberman JA, Leatherwood J.

BMC Mol Biol. 2007 Dec 21;8:119.


Genome-wide replication profiles of S-phase checkpoint mutants reveal fragile sites in yeast.

Raveendranathan M, Chattopadhyay S, Bolon YT, Haworth J, Clarke DJ, Bielinsky AK.

EMBO J. 2006 Aug 9;25(15):3627-39. Epub 2006 Aug 3.


Fork reversal and ssDNA accumulation at stalled replication forks owing to checkpoint defects.

Sogo JM, Lopes M, Foiani M.

Science. 2002 Jul 26;297(5581):599-602.


Exo1 processes stalled replication forks and counteracts fork reversal in checkpoint-defective cells.

Cotta-Ramusino C, Fachinetti D, Lucca C, Doksani Y, Lopes M, Sogo J, Foiani M.

Mol Cell. 2005 Jan 7;17(1):153-9.


A Mec1- and Rad53-dependent checkpoint controls late-firing origins of DNA replication.

Santocanale C, Diffley JF.

Nature. 1998 Oct 8;395(6702):615-8.


Analysis of ssDNA gaps and DSBs in genetically unstable yeast cultures.

Peng J, Raghuraman MK, Feng W.

Methods Mol Biol. 2014;1170:501-15. doi: 10.1007/978-1-4939-0888-2_27.


Hsk1-Dfp1/Him1, the Cdc7-Dbf4 kinase in Schizosaccharomyces pombe, associates with Swi1, a component of the replication fork protection complex.

Matsumoto S, Ogino K, Noguchi E, Russell P, Masai H.

J Biol Chem. 2005 Dec 30;280(52):42536-42. Epub 2005 Oct 31.


The DNA replication checkpoint response stabilizes stalled replication forks.

Lopes M, Cotta-Ramusino C, Pellicioli A, Liberi G, Plevani P, Muzi-Falconi M, Newlon CS, Foiani M.

Nature. 2001 Aug 2;412(6846):557-61.


Replication foci dynamics: replication patterns are modulated by S-phase checkpoint kinases in fission yeast.

Meister P, Taddei A, Ponti A, Baldacci G, Gasser SM.

EMBO J. 2007 Mar 7;26(5):1315-26. Epub 2007 Feb 15.


An origin-deficient yeast artificial chromosome triggers a cell cycle checkpoint.

van Brabant AJ, Buchanan CD, Charboneau E, Fangman WL, Brewer BJ.

Mol Cell. 2001 Apr;7(4):705-13.


Mapping yeast origins of replication via single-stranded DNA detection.

Feng W, Raghuraman MK, Brewer BJ.

Methods. 2007 Feb;41(2):151-7.

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