High-fidelity DNA replication in Mycobacterium tuberculosis relies on a trinuclear zinc center

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Abstract

High-fidelity DNA replication depends on a proofreading 3′–5′ exonuclease that is associated with the replicative DNA polymerase. The replicative DNA polymerase DnaE1 from the major pathogen Mycobacterium tuberculosis (Mtb) uses its intrinsic PHP-exonuclease that is distinct from the canonical DEDD exonucleases found in the Escherichia coli and eukaryotic replisomes. The mechanism of the PHP-exonuclease is not known. Here, we present the crystal structure of the Mtb DnaE1 polymerase. The PHP-exonuclease has a trinuclear zinc center, coordinated by nine conserved residues. Cryo-EM analysis reveals the entry path of the primer strand in the PHP-exonuclease active site. Furthermore, the PHP-exonuclease shows a striking similarity to E. coli endonuclease IV, which provides clues regarding the mechanism of action. Altogether, this work provides important insights into the PHP-exonuclease and reveals unique properties that make it an attractive target for novel anti-mycobacterial drugs.

Abstract

The polymerase and histidinol phosphatase (PHP) domain in the DNA polymerase DnaE1 is essential for mycobacterial high-fidelity DNA replication. Here, the authors determine the DnaE1 crystal structure, which reveals the PHP-exonuclease mechanism that can be exploited for antibiotic development.

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Most cited references 44

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NIH Image to ImageJ: 25 years of image analysis.

Lynda C. Schneider, Wayne S Rasband (2013)

For the past 25 years NIH Image and ImageJ software have been pioneers as open tools for the analysis of scientific images. We discuss the origins, challenges and solutions of these two programs, and how their history can serve to advise and inform other software projects.

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DNA-bound structures and mutants reveal abasic DNA binding by APE1 and DNA repair coordination [corrected].

C Mol, T Izumi, S Mitra … (2000)

Non-coding apurinic/apyrimidinic (AP) sites in DNA are continually created in cells both spontaneously and by damage-specific DNA glycosylases. The biologically critical human base excision repair enzyme APE1 cleaves the DNA sugar-phosphate backbone at a position 5' of AP sites to prime DNA repair synthesis. Here we report three co-crystal structures of human APE1 bound to abasic DNA which show that APE1 uses a rigid, pre-formed, positively charged surface to kink the DNA helix and engulf the AP-DNA strand. APE1 inserts loops into both the DNA major and minor grooves and binds a flipped-out AP site in a pocket that excludes DNA bases and racemized beta-anomer AP sites. Both the APE1 active-site geometry and a complex with cleaved AP-DNA and Mn2+ support a testable structure-based catalytic mechanism. Alanine substitutions of the residues that penetrate the DNA helix unexpectedly show that human APE1 is structurally optimized to retain the cleaved DNA product. These structural and mutational results show how APE1 probably displaces bound glycosylases and retains the nicked DNA product, suggesting that APE1 acts in vivo to coordinate the orderly transfer of unstable DNA damage intermediates between the excision and synthesis steps of DNA repair.

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DnaE2 polymerase contributes to in vivo survival and the emergence of drug resistance in Mycobacterium tuberculosis.

Helena Boshoff, Deborah B. Reed, Alyssa E. Barry … (2003)

The presence of multiple copies of the major replicative DNA polymerase (DnaE) in some organisms, including important pathogens and symbionts, has remained an unresolved enigma. We postulated that one copy might participate in error-prone DNA repair synthesis. We found that UV irradiation of Mycobacterium tuberculosis results in increased mutation frequency in the surviving fraction. We identified dnaE2 as a gene that is upregulated in vitro by several DNA damaging agents, as well as during infection of mice. Loss of this protein reduces both survival of the bacillus after UV irradiation and the virulence of the organism in mice. Our data suggest that DnaE2, and not a member of the Y family of error-prone DNA polymerases, is the primary mediator of survival through inducible mutagenesis and can contribute directly to the emergence of drug resistance in vivo. These results may indicate a potential new target for therapeutic intervention.

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Author and article information

Contributors

Meindert H. Lamers:

ORCID: http://orcid.org/0000-0002-4205-1338

mlamers@mrc-lmb.cam.ac.uk

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Publishing Group UK (London )

ISSN (Electronic): 2041-1723

Publication date (Electronic): 11 October 2017

Publication date PMC-release: 11 October 2017

Publication date Collection: 2017

Volume: 8

Electronic Location Identifier: 855

Affiliations

ISNI 0000 0004 0605 769X, GRID grid.42475.30, MRC Laboratory of Molecular Biology, ; Francis Crick Avenue, Cambridge Biomedical Campus, Cambridge, CB2 0QH UK

Author information

Meindert H. Lamers http://orcid.org/0000-0002-4205-1338

Article

Publisher ID: 886

DOI: 10.1038/s41467-017-00886-w

PMC ID: 5636811

PubMed ID: 29021523

SO-VID: cdc8b8b3-27ae-434e-bcc7-cc78888942a5

License:

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.

History

Date received : 27 June 2016

Date accepted : 2 August 2017

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High-fidelity DNA replication in Mycobacterium tuberculosis relies on a trinuclear zinc center

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Most cited references 44

NIH Image to ImageJ: 25 years of image analysis.

DNA-bound structures and mutants reveal abasic DNA binding by APE1 and DNA repair coordination [corrected].

DnaE2 polymerase contributes to in vivo survival and the emergence of drug resistance in Mycobacterium tuberculosis.

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Cited by 16

Most referenced authors 1,044