Literature DB >> 22465744

A DNA oligomer containing 2,2,4-triamino-5(2H)-oxazolone is incised by human NEIL1 and NTH1.

Katsuhito Kino1, Masashi Takao, Hiroshi Miyazawa, Fumio Hanaoka.   

Abstract

The nucleobase derivative, 2,2,4-triamino-5(2H)-oxazolone (Oz), is an oxidation product of guanine or of 8-oxo-7,8-dihydroguanine that causes G-to-C transversions in DNA. Human NEIL1 (hNEIL1) and NTH1 (hNTH1) are homologues of two prokaryotic base excision repair enzymes, FPG/NEI and NTH, respectively. Here, we demonstrated that hNEIL1 and hNTH1 cleave Oz sites as efficiently as 5-hydroxyuracil sites. Thus, hNEIL1 and hNTH1 can repair Oz lesions. Furthermore, the nicking activities of these enzymes are largely independent of nucleobases opposite Oz; this finding indicates that removing Oz from Oz:G and Oz:A base pairs might cause an increase in the rate of point mutations in human cells.
Copyright © 2012 Elsevier B.V. All rights reserved.

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Year:  2012        PMID: 22465744     DOI: 10.1016/j.mrfmmm.2012.03.007

Source DB:  PubMed          Journal:  Mutat Res        ISSN: 0027-5107            Impact factor:   2.433


  10 in total

1.  Mapping three guanine oxidation products along DNA following exposure to three types of reactive oxygen species.

Authors:  Brock Matter; Christopher L Seiler; Kristopher Murphy; Xun Ming; Jianwei Zhao; Bruce Lindgren; Roger Jones; Natalia Tretyakova
Journal:  Free Radic Biol Med       Date:  2018-04-25       Impact factor: 7.376

Review 2.  Excessive Reactive Oxygen Species and Exotic DNA Lesions as an Exploitable Liability.

Authors:  Safnas F AbdulSalam; Fathima Shazna Thowfeik; Edward J Merino
Journal:  Biochemistry       Date:  2016-09-13       Impact factor: 3.162

Review 3.  The current state of eukaryotic DNA base damage and repair.

Authors:  Nicholas C Bauer; Anita H Corbett; Paul W Doetsch
Journal:  Nucleic Acids Res       Date:  2015-10-30       Impact factor: 16.971

4.  Chlorella virus pyrimidine dimer glycosylase and Escherichia coli endonucleases IV and V have incision activity on 2,2,4-triamino-5(2H)-oxazolone.

Authors:  Katsuhito Kino; Masayo Suzuki; Masayuki Morikawa; Takanobu Kobayashi; Shigenori Iwai; Hiroshi Miyazawa
Journal:  Genes Environ       Date:  2015-11-01

Review 5.  Generation, repair and replication of guanine oxidation products.

Authors:  Katsuhito Kino; Masayo Hirao-Suzuki; Masayuki Morikawa; Akane Sakaga; Hiroshi Miyazawa
Journal:  Genes Environ       Date:  2017-08-01

Review 6.  Products of Oxidative Guanine Damage Form Base Pairs with Guanine.

Authors:  Katsuhito Kino; Taishu Kawada; Masayo Hirao-Suzuki; Masayuki Morikawa; Hiroshi Miyazawa
Journal:  Int J Mol Sci       Date:  2020-10-15       Impact factor: 5.923

7.  Mechanisms of base substitution mutagenesis in cancer genomes.

Authors:  Albino Bacolla; David N Cooper; Karen M Vasquez
Journal:  Genes (Basel)       Date:  2014-03-05       Impact factor: 4.096

8.  Analysis of guanine oxidation products in double-stranded DNA and proposed guanine oxidation pathways in single-stranded, double-stranded or quadruplex DNA.

Authors:  Masayuki Morikawa; Katsuhito Kino; Takanori Oyoshi; Masayo Suzuki; Takanobu Kobayashi; Hiroshi Miyazawa
Journal:  Biomolecules       Date:  2014-02-10

9.  Contiguous 2,2,4-triamino-5(2H)-oxazolone obstructs DNA synthesis by DNA polymerases α, β, η, ι, κ, REV1 and Klenow Fragment exo-, but not by DNA polymerase ζ.

Authors:  Masayo Suzuki; Katsuhito Kino; Taishu Kawada; Takanori Oyoshi; Masayuki Morikawa; Takanobu Kobayashi; Hiroshi Miyazawa
Journal:  J Biochem       Date:  2015-10-21       Impact factor: 3.387

10.  The involvement of nucleotide excision repair proteins in the removal of oxidative DNA damage.

Authors:  Namrata Kumar; Sripriya Raja; Bennett Van Houten
Journal:  Nucleic Acids Res       Date:  2020-11-18       Impact factor: 16.971
  10 in total

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