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Literature DB >> 20064374

Structural insight into translesion synthesis by DNA Pol II.

Abstract

E. coli DNA Pol II and eukaryotic Rev3 are B-family polymerases that can extend primers past a damaged or mismatched site when the high-fidelity replicative polymerases in the same family are ineffective. We report here the biochemical and structural properties of DNA Pol II that facilitate this translesion synthesis. DNA Pol II can extend primers past lesions either directly or by template skipping, in which small protein cavities outside of the active site accommodate looped-out template nucleotides 1 or 2 bp upstream. Because of multiple looping-out alternatives, mutation spectra of bypass synthesis are complicated. Moreover, translesion synthesis is enhanced by altered partitioning of DNA substrate between the polymerase active site and the proofreading exonuclease site. Compared to the replicative B family polymerases, DNA Pol II has subtle amino acid changes remote from the active site that allow it to replicate normal DNA with high efficiency yet conduct translesion synthesis when needed. Copyright 2009 Elsevier Inc. All rights reserved.

Entities: CellLine Chemical Disease Gene Mutation Species

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Year: 2009 PMID： 20064374 PMCID： PMC3480344 DOI： 10.1016/j.cell.2009.11.043

Source DB: PubMed Journal: Cell ISSN： 0092-8674 Impact factor: 41.582

56 in total

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Journal: Mol Cell Date: 2001-07 Impact factor: 17.970

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Authors: G J McKenzie; S M Rosenberg
Journal: Curr Opin Microbiol Date: 2001-10 Impact factor: 7.934

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Authors: M C Franklin; J Wang; T A Steitz
Journal: Cell Date: 2001-06-01 Impact factor: 41.582

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Authors: F S Sharief; P J Vojta; P A Ropp; W C Copeland
Journal: Genomics Date: 1999-07-01 Impact factor: 5.736

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Authors: C W Lawrence; V M Maher
Journal: Philos Trans R Soc Lond B Biol Sci Date: 2001-01-29 Impact factor: 6.237

9. Interacting fidelity defects in the replicative DNA polymerase of bacteriophage RB69.

Authors: A Bebenek; H K Dressman; G T Carver; S Ng ; V Petrov; G Yang; W H Konigsberg; J D Karam; J W Drake
Journal: J Biol Chem Date: 2000-12-22 Impact factor: 5.157

10. All three SOS-inducible DNA polymerases (Pol II, Pol IV and Pol V) are involved in induced mutagenesis.

Authors: R Napolitano; R Janel-Bintz; J Wagner; R P Fuchs
Journal: EMBO J Date: 2000-11-15 Impact factor: 11.598

65 in total

1. DNA conformational changes at the primer-template junction regulate the fidelity of replication by DNA polymerase.

Authors: Kausiki Datta; Neil P Johnson; Peter H von Hippel
Journal: Proc Natl Acad Sci U S A Date: 2010-10-04 Impact factor: 11.205

Review 2. DNA replication fidelity in Escherichia coli: a multi-DNA polymerase affair.

Authors: Iwona J Fijalkowska; Roel M Schaaper; Piotr Jonczyk
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Journal: J Bacteriol Date: 2012-04-27 Impact factor: 3.490

Review 4. Translesion DNA synthesis and mutagenesis in prokaryotes.

Authors: Robert P Fuchs; Shingo Fujii
Journal: Cold Spring Harb Perspect Biol Date: 2013-12-01 Impact factor: 10.005

5. DNA polymerase from temperate phage Bam35 is endowed with processive polymerization and abasic sites translesion synthesis capacity.

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Journal: Proc Natl Acad Sci U S A Date: 2015-06-22 Impact factor: 11.205

6. Competitive fitness during feast and famine: how SOS DNA polymerases influence physiology and evolution in Escherichia coli.

Authors: Christopher H Corzett; Myron F Goodman; Steven E Finkel
Journal: Genetics Date: 2013-04-15 Impact factor: 4.562

10. Architecture of y-family DNA polymerases relevant to translesion DNA synthesis as revealed in structural and molecular modeling studies.

Authors: Sushil Chandani; Christopher Jacobs; Edward L Loechler
Journal: J Nucleic Acids Date: 2010-09-16