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Items: 1 to 20 of 194

1.

Incorporation into the prereplicative complex activates the Mcm2-7 helicase for Cdc7-Dbf4 phosphorylation.

Francis LI, Randell JC, Takara TJ, Uchima L, Bell SP.

Genes Dev. 2009 Mar 1;23(5):643-54. doi: 10.1101/gad.1759609.

2.

Dbf4 and Cdc7 proteins promote DNA replication through interactions with distinct Mcm2-7 protein subunits.

Ramer MD, Suman ES, Richter H, Stanger K, Spranger M, Bieberstein N, Duncker BP.

J Biol Chem. 2013 May 24;288(21):14926-35. doi: 10.1074/jbc.M112.392910.

3.

Mec1 is one of multiple kinases that prime the Mcm2-7 helicase for phosphorylation by Cdc7.

Randell JC, Fan A, Chan C, Francis LI, Heller RC, Galani K, Bell SP.

Mol Cell. 2010 Nov 12;40(3):353-63. doi: 10.1016/j.molcel.2010.10.017.

4.

Conserved mechanism for coordinating replication fork helicase assembly with phosphorylation of the helicase.

Bruck I, Kaplan DL.

Proc Natl Acad Sci U S A. 2015 Sep 8;112(36):11223-8. doi: 10.1073/pnas.1509608112.

5.

The Dbf4-Cdc7 kinase promotes Mcm2-7 ring opening to allow for single-stranded DNA extrusion and helicase assembly.

Bruck I, Kaplan DL.

J Biol Chem. 2015 Jan 9;290(2):1210-21. doi: 10.1074/jbc.M114.608232.

6.

Hierarchy of S-phase-promoting factors: yeast Dbf4-Cdc7 kinase requires prior S-phase cyclin-dependent kinase activation.

Nougarède R, Della Seta F, Zarzov P, Schwob E.

Mol Cell Biol. 2000 Jun;20(11):3795-806.

7.

Dbf4-Cdc7 phosphorylation of Mcm2 is required for cell growth.

Bruck I, Kaplan D.

J Biol Chem. 2009 Oct 16;284(42):28823-31. doi: 10.1074/jbc.M109.039123.

8.

Structural changes in Mcm5 protein bypass Cdc7-Dbf4 function and reduce replication origin efficiency in Saccharomyces cerevisiae.

Hoang ML, Leon RP, Pessoa-Brandao L, Hunt S, Raghuraman MK, Fangman WL, Brewer BJ, Sclafani RA.

Mol Cell Biol. 2007 Nov;27(21):7594-602.

9.

Mcm2 is a target of regulation by Cdc7-Dbf4 during the initiation of DNA synthesis.

Lei M, Kawasaki Y, Young MR, Kihara M, Sugino A, Tye BK.

Genes Dev. 1997 Dec 15;11(24):3365-74.

10.

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.

11.
12.

A reconstituted system reveals how activating and inhibitory interactions control DDK dependent assembly of the eukaryotic replicative helicase.

Herrera MC, Tognetti S, Riera A, Zech J, Clarke P, Fernández-Cid A, Speck C.

Nucleic Acids Res. 2015 Dec 2;43(21):10238-50. doi: 10.1093/nar/gkv881.

13.

Helicase activation and establishment of replication forks at chromosomal origins of replication.

Tanaka S, Araki H.

Cold Spring Harb Perspect Biol. 2013 Dec 1;5(12):a010371. doi: 10.1101/cshperspect.a010371. Review.

14.

Sequential ATP hydrolysis by Cdc6 and ORC directs loading of the Mcm2-7 helicase.

Randell JC, Bowers JL, Rodríguez HK, Bell SP.

Mol Cell. 2006 Jan 6;21(1):29-39.

15.

Mcm2 phosphorylation and the response to replicative stress.

Stead BE, Brandl CJ, Sandre MK, Davey MJ.

BMC Genet. 2012 May 7;13:36. doi: 10.1186/1471-2156-13-36.

16.
17.

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.

18.

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.

19.

MCM2-7 complexes bind chromatin in a distributed pattern surrounding the origin recognition complex in Xenopus egg extracts.

Edwards MC, Tutter AV, Cvetic C, Gilbert CH, Prokhorova TA, Walter JC.

J Biol Chem. 2002 Sep 6;277(36):33049-57.

20.

Concerted loading of Mcm2-7 double hexamers around DNA during DNA replication origin licensing.

Remus D, Beuron F, Tolun G, Griffith JD, Morris EP, Diffley JF.

Cell. 2009 Nov 13;139(4):719-30. doi: 10.1016/j.cell.2009.10.015.

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