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Literature DB >> 12077346

Association of DNA polymerase mu (pol mu) with Ku and ligase IV: role for pol mu in end-joining double-strand break repair.

Kiran N Mahajan¹, Stephanie A Nick McElhinny, Beverly S Mitchell, Dale A Ramsden.

Abstract

Mammalian DNA polymerase mu (pol mu) is related to terminal deoxynucleotidyl transferase, but its biological role is not yet clear. We show here that after exposure of cells to ionizing radiation (IR), levels of pol mu protein increase. pol mu also forms discrete nuclear foci after IR, and these foci are largely coincident with IR-induced foci of gammaH2AX, a previously characterized marker of sites of DNA double-strand breaks. pol mu is thus part of the cellular response to DNA double-strand breaks. pol mu also associates in cell extracts with the nonhomologous end-joining repair factor Ku and requires both Ku and another end-joining factor, XRCC4-ligase IV, to form a stable complex on DNA in vitro. pol mu in turn facilitates both stable recruitment of XRCC4-ligase IV to Ku-bound DNA and ligase IV-dependent end joining. In contrast, the related mammalian DNA polymerase beta does not form a complex with Ku and XRCC4-ligase IV and is less effective than pol mu in facilitating joining mediated by these factors. Our data thus support an important role for pol mu in the end-joining pathway for repair of double-strand breaks.

Entities: Gene Species

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Year: 2002 PMID： 12077346 PMCID： PMC139779 DOI： 10.1128/MCB.22.14.5194-5202.2002

Source DB: PubMed Journal: Mol Cell Biol ISSN： 0270-7306 Impact factor: 4.272

38 in total

1. Ku recruits the XRCC4-ligase IV complex to DNA ends.

Authors: S A Nick McElhinny; C M Snowden; J McCarville; D A Ramsden
Journal: Mol Cell Biol Date: 2000-05 Impact factor: 4.272

2. DNA double-strand break repair in cell-free extracts from Ku80-deficient cells: implications for Ku serving as an alignment factor in non-homologous DNA end joining.

Authors: E Feldmann; V Schmiemann; W Goedecke; S Reichenberger; P Pfeiffer
Journal: Nucleic Acids Res Date: 2000-07-01 Impact factor: 16.971

3. Two novel human and mouse DNA polymerases of the polX family.

Authors: S Aoufouchi; E Flatter; A Dahan; A Faili; B Bertocci; S Storck; F Delbos; L Cocea; N Gupta; J C Weill; C A Reynaud
Journal: Nucleic Acids Res Date: 2000-09-15 Impact factor: 16.971

4. In situ visualization of DNA double-strand break repair in human fibroblasts.

Authors: B E Nelms; R S Maser; J F MacKay; M G Lagally; J H Petrini
Journal: Science Date: 1998-04-24 Impact factor: 47.728

5. DNA polymerase mu (Pol mu), homologous to TdT, could act as a DNA mutator in eukaryotic cells.

Authors: O Domínguez; J F Ruiz; T Laín de Lera; M García-Díaz; M A González; T Kirchhoff; C Martínez-A; A Bernad; L Blanco
Journal: EMBO J Date: 2000-04-03 Impact factor: 11.598

6. Modulation of terminal deoxynucleotidyltransferase activity by the DNA-dependent protein kinase.

Authors: S Mickelsen; C Snyder; K Trujillo; M Bogue; D B Roth; K Meek
Journal: J Immunol Date: 1999-07-15 Impact factor: 5.422

7. Association of terminal deoxynucleotidyl transferase with Ku.

Authors: K N Mahajan; L Gangi-Peterson; D H Sorscher; J Wang; K N Gathy; N P Mahajan; W H Reeves; B S Mitchell
Journal: Proc Natl Acad Sci U S A Date: 1999-11-23 Impact factor: 11.205

8. Efficient processing of DNA ends during yeast nonhomologous end joining. Evidence for a DNA polymerase beta (Pol4)-dependent pathway.

Authors: T E Wilson; M R Lieber
Journal: J Biol Chem Date: 1999-08-13 Impact factor: 5.157

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

Authors: T T Paull; E P Rogakou; V Yamazaki; C U Kirchgessner; M Gellert; W M Bonner
Journal: Curr Biol Date: 2000 Jul 27-Aug 10 Impact factor: 10.834

10. Somatic hypermutation in the absence of DNA-dependent protein kinase catalytic subunit (DNA-PK(cs)) or recombination-activating gene (RAG)1 activity.

Authors: M Bemark; J E Sale; H J Kim; C Berek; R A Cosgrove; M S Neuberger
Journal: J Exp Med Date: 2000-11-20 Impact factor: 14.307

105 in total

1. A genomics-based screen for yeast mutants with an altered recombination/end-joining repair ratio.

Authors: Thomas E Wilson
Journal: Genetics Date: 2002-10 Impact factor: 4.562

2. Efficiency of nonhomologous DNA end joining varies among somatic tissues, despite similarity in mechanism.

Authors: Sheetal Sharma; Bibha Choudhary; Sathees C Raghavan
Journal: Cell Mol Life Sci Date: 2010-08-03 Impact factor: 9.261

3. Anti-apoptotic protein BCL2 down-regulates DNA end joining in cancer cells.

Authors: Tadi Satish Kumar; Vijayalakshmi Kari; Bibha Choudhary; Mridula Nambiar; T S Akila; Sathees C Raghavan
Journal: J Biol Chem Date: 2010-08-10 Impact factor: 5.157

Review 4. Coordination of DNA-PK activation and nuclease processing of DNA termini in NHEJ.

Authors: Katherine S Pawelczak; Sara M Bennett; John J Turchi
Journal: Antioxid Redox Signal Date: 2010-12-02 Impact factor: 8.401

Review 5. Polymerases in nonhomologous end joining: building a bridge over broken chromosomes.

Authors: Dale A Ramsden
Journal: Antioxid Redox Signal Date: 2010-10-28 Impact factor: 8.401

6. Base damage immediately upstream from double-strand break ends is a more severe impediment to nonhomologous end joining than blocked 3'-termini.

Authors: Kamal Datta; Shubhadeep Purkayastha; Ronald D Neumann; Elzbieta Pastwa; Thomas A Winters
Journal: Radiat Res Date: 2011-01 Impact factor: 2.841