Two-polymerase mechanisms dictate error-free and error-prone translesion DNA synthesis in mammals

Sigal Shachar; Omer Ziv; Sharon Avkin; Sheera Adar; John Wittschieben; Thomas Reißner; Stephen Chaney; Errol C. Friedberg; Zhigang Wang; Thomas Carell; Nicholas Geacintov; Zvi Livneh

doi:10.1038/emboj.2008.281

Two-polymerase mechanisms dictate error-free and error-prone translesion DNA synthesis in mammals

Sigal Shachar, Omer Ziv, Sharon Avkin, Sheera Adar, John Wittschieben, Thomas Reißner, Stephen Chaney, Errol C. Friedberg, Zhigang Wang, Thomas Carell, Nicholas Geacintov, Zvi Livneh

Research output: Contribution to journal › Article › peer-review

237 Scopus citations

Abstract

DNA replication across blocking lesions occurs by translesion DNA synthesis (TLS), involving a multitude of mutagenic DNA polymerases that operate to protect the mammalian genome. Using a quantitative TLS assay, we identified three main classes of TLS in human cells: two rapid and error-free, and the third slow and error-prone. A single gene, REV3L, encoding the catalytic subunit of DNA polymerase ζ (polζ), was found to have a pivotal role in TLS, being involved in TLS across all lesions examined, except for a TT cyclobutane dimer. Genetic epistasis siRNA analysis indicated that discrete two-polymerase combinations with polζ dictate error-prone or error-free TLS across the same lesion. These results highlight the central role of polζ in both error-prone and error-free TLS in mammalian cells, and show that bypass of a single lesion may involve at least three different DNA polymerases, operating in different two-polymerase combinations.

Original language	English (US)
Pages (from-to)	383-393
Number of pages	11
Journal	EMBO Journal
Volume	28
Issue number	4
DOIs	https://doi.org/10.1038/emboj.2008.281
State	Published - Feb 18 2009

Keywords

Carcinogenesis
DNA damage
DNA repair
Lesion bypass
Mutagenesis

ASJC Scopus subject areas

General Neuroscience
Molecular Biology
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.1038/emboj.2008.281

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title = "Two-polymerase mechanisms dictate error-free and error-prone translesion DNA synthesis in mammals",

abstract = "DNA replication across blocking lesions occurs by translesion DNA synthesis (TLS), involving a multitude of mutagenic DNA polymerases that operate to protect the mammalian genome. Using a quantitative TLS assay, we identified three main classes of TLS in human cells: two rapid and error-free, and the third slow and error-prone. A single gene, REV3L, encoding the catalytic subunit of DNA polymerase ζ (polζ), was found to have a pivotal role in TLS, being involved in TLS across all lesions examined, except for a TT cyclobutane dimer. Genetic epistasis siRNA analysis indicated that discrete two-polymerase combinations with polζ dictate error-prone or error-free TLS across the same lesion. These results highlight the central role of polζ in both error-prone and error-free TLS in mammalian cells, and show that bypass of a single lesion may involve at least three different DNA polymerases, operating in different two-polymerase combinations.",

keywords = "Carcinogenesis, DNA damage, DNA repair, Lesion bypass, Mutagenesis",

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doi = "10.1038/emboj.2008.281",

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AU - Shachar, Sigal

AU - Ziv, Omer

AU - Avkin, Sharon

AU - Adar, Sheera

AU - Wittschieben, John

AU - Reißner, Thomas

AU - Chaney, Stephen

AU - Friedberg, Errol C.

AU - Wang, Zhigang

AU - Carell, Thomas

AU - Geacintov, Nicholas

AU - Livneh, Zvi

PY - 2009/2/18

Y1 - 2009/2/18

N2 - DNA replication across blocking lesions occurs by translesion DNA synthesis (TLS), involving a multitude of mutagenic DNA polymerases that operate to protect the mammalian genome. Using a quantitative TLS assay, we identified three main classes of TLS in human cells: two rapid and error-free, and the third slow and error-prone. A single gene, REV3L, encoding the catalytic subunit of DNA polymerase ζ (polζ), was found to have a pivotal role in TLS, being involved in TLS across all lesions examined, except for a TT cyclobutane dimer. Genetic epistasis siRNA analysis indicated that discrete two-polymerase combinations with polζ dictate error-prone or error-free TLS across the same lesion. These results highlight the central role of polζ in both error-prone and error-free TLS in mammalian cells, and show that bypass of a single lesion may involve at least three different DNA polymerases, operating in different two-polymerase combinations.

AB - DNA replication across blocking lesions occurs by translesion DNA synthesis (TLS), involving a multitude of mutagenic DNA polymerases that operate to protect the mammalian genome. Using a quantitative TLS assay, we identified three main classes of TLS in human cells: two rapid and error-free, and the third slow and error-prone. A single gene, REV3L, encoding the catalytic subunit of DNA polymerase ζ (polζ), was found to have a pivotal role in TLS, being involved in TLS across all lesions examined, except for a TT cyclobutane dimer. Genetic epistasis siRNA analysis indicated that discrete two-polymerase combinations with polζ dictate error-prone or error-free TLS across the same lesion. These results highlight the central role of polζ in both error-prone and error-free TLS in mammalian cells, and show that bypass of a single lesion may involve at least three different DNA polymerases, operating in different two-polymerase combinations.

KW - Carcinogenesis

KW - DNA damage

KW - DNA repair

KW - Lesion bypass

KW - Mutagenesis

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Two-polymerase mechanisms dictate error-free and error-prone translesion DNA synthesis in mammals

Abstract

Keywords

ASJC Scopus subject areas

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