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Items: 1 to 20 of 270

1.

Phosphorylation of MCM4 at sites inactivating DNA helicase activity of the MCM4-MCM6-MCM7 complex during Epstein-Barr virus productive replication.

Kudoh A, Daikoku T, Ishimi Y, Kawaguchi Y, Shirata N, Iwahori S, Isomura H, Tsurumi T.

J Virol. 2006 Oct;80(20):10064-72.

2.

Site-specific phosphorylation of MCM4 during the cell cycle in mammalian cells.

Komamura-Kohno Y, Karasawa-Shimizu K, Saitoh T, Sato M, Hanaoka F, Tanaka S, Ishimi Y.

FEBS J. 2006 Mar;273(6):1224-39.

3.

Phosphorylation of Mcm4 at specific sites by cyclin-dependent kinase leads to loss of Mcm4,6,7 helicase activity.

Ishimi Y, Komamura-Kohno Y.

J Biol Chem. 2001 Sep 14;276(37):34428-33. Epub 2001 Jul 13.

4.

Phosphorylation of p27Kip1 by Epstein-Barr virus protein kinase induces its degradation through SCFSkp2 ubiquitin ligase actions during viral lytic replication.

Iwahori S, Murata T, Kudoh A, Sato Y, Nakayama S, Isomura H, Kanda T, Tsurumi T.

J Biol Chem. 2009 Jul 10;284(28):18923-31. doi: 10.1074/jbc.M109.015123. Epub 2009 May 18.

5.

Roles of Mcm7 and Mcm4 subunits in the DNA helicase activity of the mouse Mcm4/6/7 complex.

You Z, Ishimi Y, Masai H, Hanaoka F.

J Biol Chem. 2002 Nov 8;277(45):42471-9. Epub 2002 Aug 30.

6.

Inhibition of Mcm4,6,7 helicase activity by phosphorylation with cyclin A/Cdk2.

Ishimi Y, Komamura-Kohno Y, You Z, Omori A, Kitagawa M.

J Biol Chem. 2000 May 26;275(21):16235-41.

7.
8.

Identification of MCM4 as a target of the DNA replication block checkpoint system.

Ishimi Y, Komamura-Kohno Y, Kwon HJ, Yamada K, Nakanishi M.

J Biol Chem. 2003 Jul 4;278(27):24644-50. Epub 2003 Apr 24.

9.

Levels of MCM4 phosphorylation and DNA synthesis in DNA replication block checkpoint control.

Ishimi Y, Komamura-Kohno Y, Karasawa-Shimizu K, Yamada K.

J Struct Biol. 2004 Apr-May;146(1-2):234-41.

PMID:
15037254
10.
11.

Latent and lytic Epstein-Barr virus replication strategies.

Tsurumi T, Fujita M, Kudoh A.

Rev Med Virol. 2005 Jan-Feb;15(1):3-15. Review.

PMID:
15386591
12.

Mcm subunits can assemble into two different active unwinding complexes.

Kanter DM, Bruck I, Kaplan DL.

J Biol Chem. 2008 Nov 7;283(45):31172-82. doi: 10.1074/jbc.M804686200. Epub 2008 Sep 17.

13.

Nucleocytoplasmic shuttling of bovine papillomavirus E1 helicase downregulates viral DNA replication in S phase.

Hsu CY, Mechali F, Bonne-Andrea C.

J Virol. 2007 Jan;81(1):384-94. Epub 2006 Oct 11.

14.

Biochemical activities associated with mouse Mcm2 protein.

Ishimi Y, Komamura-Kohno Y, Arai K, Masai H.

J Biol Chem. 2001 Nov 16;276(46):42744-52. Epub 2001 Sep 21.

15.

Identification of Mcm2 phosphorylation sites by S-phase-regulating kinases.

Montagnoli A, Valsasina B, Brotherton D, Troiani S, Rainoldi S, Tenca P, Molinari A, Santocanale C.

J Biol Chem. 2006 Apr 14;281(15):10281-90. Epub 2006 Jan 30.

16.

Effect of phosphorylation on the transactivation activity of Epstein-Barr virus BMRF1, a major target of the viral BGLF4 kinase.

Yang PW, Chang SS, Tsai CH, Chao YH, Chen MR.

J Gen Virol. 2008 Apr;89(Pt 4):884-95. doi: 10.1099/vir.0.83546-0.

PMID:
18343828
17.

Lytic cycle switches of oncogenic human gammaherpesviruses.

Miller G, El-Guindy A, Countryman J, Ye J, Gradoville L.

Adv Cancer Res. 2007;97:81-109. Review.

PMID:
17419942
18.

Distinct phosphoisoforms of the Xenopus Mcm4 protein regulate the function of the Mcm complex.

Pereverzeva I, Whitmire E, Khan B, Coué M.

Mol Cell Biol. 2000 May;20(10):3667-76.

19.

Phosphorylation of MCM4 by Cdc7 kinase facilitates its interaction with Cdc45 on the chromatin.

Masai H, Taniyama C, Ogino K, Matsui E, Kakusho N, Matsumoto S, Kim JM, Ishii A, Tanaka T, Kobayashi T, Tamai K, Ohtani K, Arai K.

J Biol Chem. 2006 Dec 22;281(51):39249-61. Epub 2006 Oct 17.

20.

Differential regulation of CDP/Cux p110 by cyclin A/Cdk2 and cyclin A/Cdk1.

Santaguida M, Nepveu A.

J Biol Chem. 2005 Sep 23;280(38):32712-21. Epub 2005 Aug 3.

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