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Results: 1 to 20 of 191

References for PMC Articles for PubMed (Select 20515732)

1.

SSB protein diffusion on single-stranded DNA stimulates RecA filament formation.

Roy R, Kozlov AG, Lohman TM, Ha T.

Nature. 2009 Oct 22;461(7267):1092-7. doi: 10.1038/nature08442. Epub 2009 Oct 11. Erratum in: Nature. 2009 Dec 17;462(7275):944.

2.

A supramodular FHA/BRCT-repeat architecture mediates Nbs1 adaptor function in response to DNA damage.

Lloyd J, Chapman JR, Clapperton JA, Haire LF, Hartsuiker E, Li J, Carr AM, Jackson SP, Smerdon SJ.

Cell. 2009 Oct 2;139(1):100-11. doi: 10.1016/j.cell.2009.07.043.

3.

Nbs1 flexibly tethers Ctp1 and Mre11-Rad50 to coordinate DNA double-strand break processing and repair.

Williams RS, Dodson GE, Limbo O, Yamada Y, Williams JS, Guenther G, Classen S, Glover JN, Iwasaki H, Russell P, Tainer JA.

Cell. 2009 Oct 2;139(1):87-99. doi: 10.1016/j.cell.2009.07.033.

4.

The annealing helicase HARP protects stalled replication forks.

Yuan J, Ghosal G, Chen J.

Genes Dev. 2009 Oct 15;23(20):2394-9. doi: 10.1101/gad.1836409. Epub 2009 Sep 30.

5.

The annealing helicase HARP is recruited to DNA repair sites via an interaction with RPA.

Yusufzai T, Kong X, Yokomori K, Kadonaga JT.

Genes Dev. 2009 Oct 15;23(20):2400-4. doi: 10.1101/gad.1831509. Epub 2009 Sep 30.

6.

The SIOD disorder protein SMARCAL1 is an RPA-interacting protein involved in replication fork restart.

Ciccia A, Bredemeyer AL, Sowa ME, Terret ME, Jallepalli PV, Harper JW, Elledge SJ.

Genes Dev. 2009 Oct 15;23(20):2415-25. doi: 10.1101/gad.1832309. Epub 2009 Sep 30.

7.

The annealing helicase SMARCAL1 maintains genome integrity at stalled replication forks.

Bansbach CE, Bétous R, Lovejoy CA, Glick GG, Cortez D.

Genes Dev. 2009 Oct 15;23(20):2405-14. doi: 10.1101/gad.1839909. Epub 2009 Sep 30.

8.

Hyperphosphorylation of replication protein A in cisplatin-resistant and -sensitive head and neck squamous cell carcinoma cell lines.

Manthey KC, Glanzer JG, Dimitrova DD, Oakley GG.

Head Neck. 2010 May;32(5):636-45. doi: 10.1002/hed.21234.

9.

Ionizing radiation-dependent and independent phosphorylation of the 32-kDa subunit of replication protein A during mitosis.

Stephan H, Concannon C, Kremmer E, Carty MP, Nasheuer HP.

Nucleic Acids Res. 2009 Oct;37(18):6028-41. doi: 10.1093/nar/gkp605. Epub 2009 Aug 11.

10.

Prediction of and experimental support for the three-dimensional structure of replication protein A.

Nuss JE, Sweeney DJ, Alter GM.

Biochemistry. 2009 Aug 25;48(33):7892-905. doi: 10.1021/bi801896s.

PMID:
19621872
11.

Physical interaction between replication protein A (RPA) and MRN: involvement of RPA2 phosphorylation and the N-terminus of RPA1.

Oakley GG, Tillison K, Opiyo SA, Glanzer JG, Horn JM, Patrick SM.

Biochemistry. 2009 Aug 11;48(31):7473-81. doi: 10.1021/bi900694p.

12.

Human replication protein A-Rad52-single-stranded DNA complex: stoichiometry and evidence for strand transfer regulation by phosphorylation.

Deng X, Prakash A, Dhar K, Baia GS, Kolar C, Oakley GG, Borgstahl GE.

Biochemistry. 2009 Jul 21;48(28):6633-43. doi: 10.1021/bi900564k.

13.

Functions of MutLalpha, replication protein A (RPA), and HMGB1 in 5'-directed mismatch repair.

Genschel J, Modrich P.

J Biol Chem. 2009 Aug 7;284(32):21536-44. doi: 10.1074/jbc.M109.021287. Epub 2009 Jun 10.

14.

Dynamic regulatory interactions of rad51, rad52, and replication protein-a in recombination intermediates.

Sugiyama T, Kantake N.

J Mol Biol. 2009 Jul 3;390(1):45-55. doi: 10.1016/j.jmb.2009.05.009. Epub 2009 May 13.

PMID:
19445949
15.

Replication protein A modulates the activity of human telomerase in vitro.

Rubtsova MP, Skvortsov DA, Petruseva IO, Lavrik OI, Spirin PV, Prasolov VS, Kisseljov FL, Dontsova OA.

Biochemistry (Mosc). 2009 Jan;74(1):92-6.

PMID:
19232055
16.

Evidence for direct contact between the RPA3 subunit of the human replication protein A and single-stranded DNA.

Salas TR, Petruseva I, Lavrik O, Saintomé C.

Nucleic Acids Res. 2009 Jan;37(1):38-46. doi: 10.1093/nar/gkn895. Epub 2008 Nov 14.

17.

SSB as an organizer/mobilizer of genome maintenance complexes.

Shereda RD, Kozlov AG, Lohman TM, Cox MM, Keck JL.

Crit Rev Biochem Mol Biol. 2008 Sep-Oct;43(5):289-318. doi: 10.1080/10409230802341296 . Review.

18.

The basic cleft of RPA70N binds multiple checkpoint proteins, including RAD9, to regulate ATR signaling.

Xu X, Vaithiyalingam S, Glick GG, Mordes DA, Chazin WJ, Cortez D.

Mol Cell Biol. 2008 Dec;28(24):7345-53. doi: 10.1128/MCB.01079-08. Epub 2008 Oct 20.

19.

RPA phosphorylation facilitates mitotic exit in response to mitotic DNA damage.

Anantha RW, Sokolova E, Borowiec JA.

Proc Natl Acad Sci U S A. 2008 Sep 2;105(35):12903-8. doi: 10.1073/pnas.0803001105. Epub 2008 Aug 22.

20.

Interaction with RPA is necessary for Rad52 repair center formation and for its mediator activity.

Plate I, Hallwyl SC, Shi I, Krejci L, Müller C, Albertsen L, Sung P, Mortensen UH.

J Biol Chem. 2008 Oct 24;283(43):29077-85. doi: 10.1074/jbc.M804881200. Epub 2008 Aug 14.

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