DNA polymerase IV mediates efficient and quick recovery of replication forks stalled at N2-dG adducts

Mio Ikeda; Asako Furukohri; Gaelle Philippin; Edward Loechler; Masahiro Tatsumi Akiyama; Tsutomu Katayama; Robert P. Fuchs; Hisaji Maki

doi:10.1093/nar/gku547

DNA polymerase IV mediates efficient and quick recovery of replication forks stalled at N²-dG adducts

Mio Ikeda, Asako Furukohri, Gaelle Philippin, Edward Loechler, Masahiro Tatsumi Akiyama, Tsutomu Katayama, Robert P. Fuchs, Hisaji Maki

Pharmaceutical Health Care and Sciences

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

30 Citations (Scopus)

Abstract

Escherichia coli DNA polymerase IV (Pol IV, also known as DinB) is a Y-family DNA polymerase capable of catalyzing translesion DNA synthesis (TLS) on certain DNA lesions, and accumulating data suggest that Pol IV may play an important role in copying various kinds of spontaneous DNA damage including N²-dG adducts and alkylated bases. Pol IV has a unique ability to coexist with Pol III on the same β clamp and to positively dissociate Pol III from β clamp in a concentration-dependent manner. Reconstituting the entire process of TLS in vitro using E. Coli replication machinery and Pol IV, we observed that a replication fork stalled at (-)-trans-anti-benzo[a]pyrene- N²-dG lesion on the leading strand was efficiently and quickly recovered via two sequential switches from Pol III to Pol IV and back to Pol III. Our results suggest that TLS by Pol IV smoothes the way for the replication fork with minimal interruption.

Original language	English
Pages (from-to)	8461-8472
Number of pages	12
Journal	Nucleic acids research
Volume	42
Issue number	13
DOIs	https://doi.org/10.1093/nar/gku547
Publication status	Published - Jul 29 2014

All Science Journal Classification (ASJC) codes

Genetics

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10.1093/nar/gku547

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@article{8ddf6d1dd84a4e2a89770487bfce1c35,

title = "DNA polymerase IV mediates efficient and quick recovery of replication forks stalled at N2-dG adducts",

abstract = "Escherichia coli DNA polymerase IV (Pol IV, also known as DinB) is a Y-family DNA polymerase capable of catalyzing translesion DNA synthesis (TLS) on certain DNA lesions, and accumulating data suggest that Pol IV may play an important role in copying various kinds of spontaneous DNA damage including N2-dG adducts and alkylated bases. Pol IV has a unique ability to coexist with Pol III on the same β clamp and to positively dissociate Pol III from β clamp in a concentration-dependent manner. Reconstituting the entire process of TLS in vitro using E. Coli replication machinery and Pol IV, we observed that a replication fork stalled at (-)-trans-anti-benzo[a]pyrene- N2-dG lesion on the leading strand was efficiently and quickly recovered via two sequential switches from Pol III to Pol IV and back to Pol III. Our results suggest that TLS by Pol IV smoothes the way for the replication fork with minimal interruption.",

author = "Mio Ikeda and Asako Furukohri and Gaelle Philippin and Edward Loechler and Akiyama, {Masahiro Tatsumi} and Tsutomu Katayama and Fuchs, {Robert P.} and Hisaji Maki",

note = "Funding Information: Grants-in-Aid for Scientific Research KAKENHI [21870023, 25840009 to A.F., 25291077, 25131713 to H.M.] from the Japan Society for the Promotion of Science and the Ministry of Education, Culture, Sports, Science and Technology, Japan; LIGUE Contre le Cancer [labelli-sation 2011 to R.P.F.]; ANR ForkRepair [ANR 11 BSV8 017 01 to R.P.F.]; United States Public Health Services Grant [R01ES003775 to R.P.F. and E.L.]. Funding for open access charge: Grants-in-Aid for Scientific Research KAKENHI [to A.F.] from the Japan Society for the Promotion of Science and the Ministry of Education, Culture, Sports, Science and Technology, Japan. Conflict of interest statement. None declared.",

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doi = "10.1093/nar/gku547",

language = "English",

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journal = "Nucleic acids research",

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T1 - DNA polymerase IV mediates efficient and quick recovery of replication forks stalled at N2-dG adducts

AU - Ikeda, Mio

AU - Furukohri, Asako

AU - Philippin, Gaelle

AU - Loechler, Edward

AU - Akiyama, Masahiro Tatsumi

AU - Katayama, Tsutomu

AU - Fuchs, Robert P.

AU - Maki, Hisaji

N1 - Funding Information: Grants-in-Aid for Scientific Research KAKENHI [21870023, 25840009 to A.F., 25291077, 25131713 to H.M.] from the Japan Society for the Promotion of Science and the Ministry of Education, Culture, Sports, Science and Technology, Japan; LIGUE Contre le Cancer [labelli-sation 2011 to R.P.F.]; ANR ForkRepair [ANR 11 BSV8 017 01 to R.P.F.]; United States Public Health Services Grant [R01ES003775 to R.P.F. and E.L.]. Funding for open access charge: Grants-in-Aid for Scientific Research KAKENHI [to A.F.] from the Japan Society for the Promotion of Science and the Ministry of Education, Culture, Sports, Science and Technology, Japan. Conflict of interest statement. None declared.

PY - 2014/7/29

Y1 - 2014/7/29

N2 - Escherichia coli DNA polymerase IV (Pol IV, also known as DinB) is a Y-family DNA polymerase capable of catalyzing translesion DNA synthesis (TLS) on certain DNA lesions, and accumulating data suggest that Pol IV may play an important role in copying various kinds of spontaneous DNA damage including N2-dG adducts and alkylated bases. Pol IV has a unique ability to coexist with Pol III on the same β clamp and to positively dissociate Pol III from β clamp in a concentration-dependent manner. Reconstituting the entire process of TLS in vitro using E. Coli replication machinery and Pol IV, we observed that a replication fork stalled at (-)-trans-anti-benzo[a]pyrene- N2-dG lesion on the leading strand was efficiently and quickly recovered via two sequential switches from Pol III to Pol IV and back to Pol III. Our results suggest that TLS by Pol IV smoothes the way for the replication fork with minimal interruption.

AB - Escherichia coli DNA polymerase IV (Pol IV, also known as DinB) is a Y-family DNA polymerase capable of catalyzing translesion DNA synthesis (TLS) on certain DNA lesions, and accumulating data suggest that Pol IV may play an important role in copying various kinds of spontaneous DNA damage including N2-dG adducts and alkylated bases. Pol IV has a unique ability to coexist with Pol III on the same β clamp and to positively dissociate Pol III from β clamp in a concentration-dependent manner. Reconstituting the entire process of TLS in vitro using E. Coli replication machinery and Pol IV, we observed that a replication fork stalled at (-)-trans-anti-benzo[a]pyrene- N2-dG lesion on the leading strand was efficiently and quickly recovered via two sequential switches from Pol III to Pol IV and back to Pol III. Our results suggest that TLS by Pol IV smoothes the way for the replication fork with minimal interruption.

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JO - Nucleic acids research

JF - Nucleic acids research

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ER -

DNA polymerase IV mediates efficient and quick recovery of replication forks stalled at N²-dG adducts

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