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Literature DB >> 17159995

Structural insight into the substrate specificity of DNA Polymerase mu.

Andrea F Moon¹, Miguel Garcia-Diaz, Katarzyna Bebenek, Bryan J Davis, Xuejun Zhong, Dale A Ramsden, Thomas A Kunkel, Lars C Pedersen.

Abstract

DNA polymerase mu (Pol mu) is a family X enzyme with unique substrate specificity that contributes to its specialized role in nonhomologous DNA end joining (NHEJ). To investigate Pol mu's unusual substrate specificity, we describe the 2.4 A crystal structure of the polymerase domain of murine Pol mu bound to gapped DNA with a correct dNTP at the active site. This structure reveals substrate interactions with side chains in Pol mu that differ from other family X members. For example, a single amino acid substitution, H329A, has little effect on template-dependent synthesis by Pol mu from a paired primer terminus, but it reduces both template-independent and template-dependent synthesis during NHEJ of intermediates whose 3' ends lack complementary template strand nucleotides. These results provide insight into the substrate specificity and differing functions of four closely related mammalian family X DNA polymerases.

Entities: Chemical Gene Mutation Species

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Year: 2006 PMID： 17159995 DOI： 10.1038/nsmb1180

Source DB: PubMed Journal: Nat Struct Mol Biol ISSN： 1545-9985 Impact factor: 15.369

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Cited

57 in total

Review 1. Intron creation and DNA repair.

Authors: Hermann Ragg
Journal: Cell Mol Life Sci Date: 2010-09-19 Impact factor: 9.261

Review 2. 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

3. Creative template-dependent synthesis by human polymerase mu.

Authors: Andrea F Moon; Rajendrakumar A Gosavi; Thomas A Kunkel; Lars C Pedersen; Katarzyna Bebenek
Journal: Proc Natl Acad Sci U S A Date: 2015-08-03 Impact factor: 11.205

4. Structural evidence for an in trans base selection mechanism involving Loop1 in polymerase μ at an NHEJ double-strand break junction.

Authors: Jérôme Loc'h; Christina A Gerodimos; Sandrine Rosario; Mustafa Tekpinar; Michael R Lieber; Marc Delarue
Journal: J Biol Chem Date: 2019-05-28 Impact factor: 5.157

5. XRCC4:DNA ligase IV can ligate incompatible DNA ends and can ligate across gaps.

Authors: Jiafeng Gu; Haihui Lu; Brigette Tippin; Noriko Shimazaki; Myron F Goodman; Michael R Lieber
Journal: EMBO J Date: 2007-02-08 Impact factor: 11.598

Review 6. The X family portrait: structural insights into biological functions of X family polymerases.

Authors: Andrea F Moon; Miguel Garcia-Diaz; Vinod K Batra; William A Beard; Katarzyna Bebenek; Thomas A Kunkel; Samuel H Wilson; Lars C Pedersen
Journal: DNA Repair (Amst) Date: 2007-07-12

7. Modulation of the structure, catalytic activity, and fidelity of African swine fever virus DNA polymerase X by a reversible disulfide switch.

Authors: Markus W Voehler; Robert L Eoff; W Hayes McDonald; F Peter Guengerich; Michael P Stone
Journal: J Biol Chem Date: 2009-05-05 Impact factor: 5.157