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Items: 1 to 20 of 57

1.

Assessing Candidate Gene nsSNPs for Phenotypic Differences in Double-Strand Break Repair Using Radiation-Induced gammaH2A.X Foci.

Markunas CA, Umbach DM, Xu Z, Taylor JA.

J Cancer Epidemiol. 2008;2008:387423. doi: 10.1155/2008/387423. Epub 2009 Mar 12.

2.

Long-term in vivo effects of cisplatin on gamma-H2AX foci signaling in peripheral lymphocytes of tumor patients after irradiation.

Sak A, Grehl S, Engelhard M, Wierlemann A, Kaelberlah HP, Erichsen P, Pöttgen C, Groneberg M, Stuschke M.

Clin Cancer Res. 2009 Apr 15;15(8):2927-34. doi: 10.1158/1078-0432.CCR-08-0650. Epub 2009 Mar 31.

3.

GammaH2AX foci induced by gamma rays and 125idU decay.

Yasui LS.

Int J Radiat Biol. 2004 Nov-Dec;80(11-12):895-903.

PMID:
15764399
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6.

In vivo formation of gamma-H2AX and 53BP1 DNA repair foci in blood cells after radioiodine therapy of differentiated thyroid cancer.

Lassmann M, Hänscheid H, Gassen D, Biko J, Meineke V, Reiners C, Scherthan H.

J Nucl Med. 2010 Aug;51(8):1318-25. doi: 10.2967/jnumed.109.071357. Epub 2010 Jul 21.

7.

Differences in DNA double strand breaks repair in male germ cell types: lessons learned from a differential expression of Mdc1 and 53BP1.

Ahmed EA, van der Vaart A, Barten A, Kal HB, Chen J, Lou Z, Minter-Dykhouse K, Bartkova J, Bartek J, de Boer P, de Rooij DG.

DNA Repair (Amst). 2007 Sep 1;6(9):1243-54. Epub 2007 Mar 21.

PMID:
17376750
8.

Histone H2AX phosphorylation in normal human cells irradiated with focused ultrasoft X rays: evidence for chromatin movement during repair.

Hamada N, Schettino G, Kashino G, Vaid M, Suzuki K, Kodama S, Vojnovic B, Folkard M, Watanabe M, Michael BD, Prise KM.

Radiat Res. 2006 Jul;166(1 Pt 1):31-8.

PMID:
16808616
9.

DNA repair after irradiation in glioma cells and normal human astrocytes.

Short SC, Martindale C, Bourne S, Brand G, Woodcock M, Johnston P.

Neuro Oncol. 2007 Oct;9(4):404-11. Epub 2007 Aug 17.

10.

DNA repair in modeled microgravity: double strand break rejoining activity in human lymphocytes irradiated with gamma-rays.

Mognato M, Girardi C, Fabris S, Celotti L.

Mutat Res. 2009 Apr 26;663(1-2):32-9. doi: 10.1016/j.mrfmmm.2009.01.002. Epub 2009 Jan 17.

PMID:
19428367
11.

A critical role for histone H2AX in recruitment of repair factors to nuclear foci after DNA damage.

Paull TT, Rogakou EP, Yamazaki V, Kirchgessner CU, Gellert M, Bonner WM.

Curr Biol. 2000 Jul 27-Aug 10;10(15):886-95.

13.

Analysis of ionizing radiation-induced foci of DNA damage repair proteins.

van Veelen LR, Cervelli T, van de Rakt MW, Theil AF, Essers J, Kanaar R.

Mutat Res. 2005 Jul 1;574(1-2):22-33. Epub 2005 Mar 31.

PMID:
15914204
14.

Dose-response for radiation-induced apoptosis, residual 53BP1 foci and DNA-loop relaxation in human lymphocytes.

Torudd J, Protopopova M, Sarimov R, Nygren J, Eriksson S, Marková E, Chovanec M, Selivanova G, Belyaev IY.

Int J Radiat Biol. 2005 Feb;81(2):125-38.

PMID:
16019922
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16.

Targeting of AKT1 enhances radiation toxicity of human tumor cells by inhibiting DNA-PKcs-dependent DNA double-strand break repair.

Toulany M, Kehlbach R, Florczak U, Sak A, Wang S, Chen J, Lobrich M, Rodemann HP.

Mol Cancer Ther. 2008 Jul;7(7):1772-81. doi: 10.1158/1535-7163.MCT-07-2200.

17.

Double-strand break repair deficiency and radiation sensitivity in BRCA2 mutant cancer cells.

Abbott DW, Freeman ML, Holt JT.

J Natl Cancer Inst. 1998 Jul 1;90(13):978-85.

18.

Heat induces gammaH2AX foci formation in mammalian cells.

Takahashi A, Mori E, Somakos GI, Ohnishi K, Ohnishi T.

Mutat Res. 2008 Oct 30;656(1-2):88-92. doi: 10.1016/j.mrgentox.2008.07.012. Epub 2008 Aug 13.

PMID:
18765297
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20.

Radiation-induced DNA repair foci: spatio-temporal aspects of formation, application for assessment of radiosensitivity and biological dosimetry.

Belyaev IY.

Mutat Res. 2010 Apr-Jun;704(1-3):132-41. doi: 10.1016/j.mrrev.2010.01.011. Epub 2010 Jan 22. Review.

PMID:
20096808
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