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Items: 1 to 20 of 129

1.

The level of origin firing inversely affects the rate of replication fork progression.

Zhong Y, Nellimoottil T, Peace JM, Knott SR, Villwock SK, Yee JM, Jancuska JM, Rege S, Tecklenburg M, Sclafani RA, Tavaré S, Aparicio OM.

J Cell Biol. 2013 Apr 29;201(3):373-83. doi: 10.1083/jcb.201208060.

2.

Domain within the helicase subunit Mcm4 integrates multiple kinase signals to control DNA replication initiation and fork progression.

Sheu YJ, Kinney JB, Lengronne A, Pasero P, Stillman B.

Proc Natl Acad Sci U S A. 2014 May 6;111(18):E1899-908. doi: 10.1073/pnas.1404063111. Epub 2014 Apr 16.

3.

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.

4.

ORC and the intra-S-phase checkpoint: a threshold regulates Rad53p activation in S phase.

Shimada K, Pasero P, Gasser SM.

Genes Dev. 2002 Dec 15;16(24):3236-52.

5.

Rad53 regulates replication fork restart after DNA damage in Saccharomyces cerevisiae.

Szyjka SJ, Aparicio JG, Viggiani CJ, Knott S, Xu W, Tavaré S, Aparicio OM.

Genes Dev. 2008 Jul 15;22(14):1906-20. doi: 10.1101/gad.1660408.

6.

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.

PMID:
9783589
7.

Pph3-Psy2 is a phosphatase complex required for Rad53 dephosphorylation and replication fork restart during recovery from DNA damage.

O'Neill BM, Szyjka SJ, Lis ET, Bailey AO, Yates JR 3rd, Aparicio OM, Romesberg FE.

Proc Natl Acad Sci U S A. 2007 May 29;104(22):9290-5. Epub 2007 May 21.

8.

Requirement of replication checkpoint protein kinases Mec1/Rad53 for postreplication repair in yeast.

Gangavarapu V, Santa Maria SR, Prakash S, Prakash L.

MBio. 2011 May 17;2(3):e00079-11. doi: 10.1128/mBio.00079-11. Print 2011.

9.
10.

A Dbf4 mutant contributes to bypassing the Rad53-mediated block of origins of replication in response to genotoxic stress.

Duch A, Palou G, Jonsson ZO, Palou R, Calvo E, Wohlschlegel J, Quintana DG.

J Biol Chem. 2011 Jan 28;286(4):2486-91. doi: 10.1074/jbc.M110.190843. Epub 2010 Nov 23.

11.

Checkpoint-dependent inhibition of DNA replication initiation by Sld3 and Dbf4 phosphorylation.

Zegerman P, Diffley JF.

Nature. 2010 Sep 23;467(7314):474-8. doi: 10.1038/nature09373. Epub 2010 Sep 12.

12.
13.

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.

PMID:
11484058
14.

Top1- and Top2-mediated topological transitions at replication forks ensure fork progression and stability and prevent DNA damage checkpoint activation.

Bermejo R, Doksani Y, Capra T, Katou YM, Tanaka H, Shirahige K, Foiani M.

Genes Dev. 2007 Aug 1;21(15):1921-36.

15.

Concerted activities of Mcm4, Sld3, and Dbf4 in control of origin activation and DNA replication fork progression.

Sheu YJ, Kinney JB, Stillman B.

Genome Res. 2016 Mar;26(3):315-30. doi: 10.1101/gr.195248.115. Epub 2016 Jan 5.

16.
17.

An intrinsic checkpoint model for regulation of replication origins.

Rhind N.

Cell Cycle. 2008 Sep 1;7(17):2619-20. Epub 2008 Sep 16.

18.

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.

19.

Mechanisms involved in regulating DNA replication origins during the cell cycle and in response to DNA damage.

Early A, Drury LS, Diffley JF.

Philos Trans R Soc Lond B Biol Sci. 2004 Jan 29;359(1441):31-8. Review.

20.

The role of the Saccharomyces cerevisiae Cdc7-Dbf4 complex in the replication checkpoint.

Ogi H, Wang CZ, Nakai W, Kawasaki Y, Masumoto H.

Gene. 2008 May 15;414(1-2):32-40. doi: 10.1016/j.gene.2008.02.010. Epub 2008 Feb 21.

PMID:
18372119

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