Takehiko Nohmi scite author profile

Letter to the Editor Letter to the Editor amino acid sequence identity and similarity amongst them-The Y-Family of DNA Polymerases UmuC/DinB/Rev1/Rad30 DNA polymerases be referred ESBS Boulevard S. Brant to as the "Y-family" of DNA polymerases.Phylogenetic analysis of the Y-family of DNA poly-67400 Strasbourg France merases reveals several branches to an unrooted tree (Figure 1). Interestingly, not all branches are evenly dis-

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Primary mutagenicity screening of food additives currently used in Japan

Ishidate

Sofuni

Yoshikawa

et al. 1984

Food and Chemical Toxicology

748

387

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The dinB Gene Encodes a Novel E. coli DNA Polymerase, DNA Pol IV, Involved in Mutagenesis

et al. 1999

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In Escherichia coli, the dinB gene is required for the SOS-induced lambda untargeted mutagenesis pathway and confers a mutator phenotype to the cell when the gene product is overexpressed. Here, we report that the purified DinB protein is a DNA polymerase. This novel E. coli DNA polymerase (pol IV) is shown to be strictly distributive, devoid of proofreading activity, and prone to elongate bulged (misaligned) primer/template structures. Site-directed mutagenesis experiments of dinB also demonstrate that the polymerase activity of DinB is required for its in vivo mutagenicity. Along with the sequence homologies previously found within the UmuC-like protein family, these results indicate that the uncovered DNA polymerase activity may be a common feature of all these homologous proteins.

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RecA-mediated cleavage activates UmuD for mutagenesis: mechanistic relationship between transcriptional derepression and posttranslational activation.

Nohmi

Battista

Dodson

et al. 1988

Proc. Natl. Acad. Sci. U.S.A.

351

341

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The products of the SOS-regulated umuDC operon are required for most UV and chemical mutagenesis in Escherichia coli. It has been shown that the UmuD protein shares homology with LexA, the repressor of the SOS genes. In this paper we describe a series of genetic experiments that indicate that the purpose of RecA-mediated cleavage of UmuD at its bond between Cys-24 and Gly-25 is to activate UmuD for its role in mutagenesis and that the COOH-terminal fragment of UmuD is necessary and sufficient for the role of UmuD in UV mutagenesis. Other genetic experiments are presented that (i) support the hypothesis that the primary role of Ser-60 in UmuD function is to act as a nucleophile in the RecA-mediated cleavage reaction and (ii) raise the possibility that RecA has a third role in UV mutagenesis besides mediating the cleavage of LexA and UmuD.

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Genetic polymorphisms and alternative splicing of the hOGG1 gene, that is involved in the repair of 8-hydroxyguanine in damaged DNA

Kohno¹,

Shinmura

Tosaka³

et al. 1998

Oncogene

388

309

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The hOGG1 gene encodes a DNA glycosylase that excises 8-hydroxyguanine (oh 8 Gua) from damaged DNA. Structural analyses of the hOGG1 gene and its transcripts were performed in normal and lung cancer cells. Due to a genetic polymorphism at codon 326, hOGG1-Ser 326 and hOGG1-Cys 326 proteins were produced in human cells. Activity in the repair of oh 8 Gua was greater in hOGG1-Ser 326 protein than in hOGG1-Cys 326 protein in the complementation assay of an E. coli mutant defective in the repair of oh 8 Gua. Two isoforms of hOGG1 transcripts produced by alternative splicing encoded distinct hOGG1 proteins: one with and the other without a putative nuclear localization signal. Loss of heterozygosity at the hOGG1 locus was frequently (15/ 23, 62.2%) detected in lung cancer cells, and a cell line NCI-H526 had a mutation leading to the formation of the transcripts encoding a truncated hOGG1 protein. However, the oh 8 Gua levels in nuclear DNA were similar among lung cancer cells and leukocytes irrespective of the type of hOGG1 proteins expressed. These results suggest that the oh 8 Gua levels are maintained at a steady level, even though multiple hOGG1 proteins are produced due to genetic polymorphisms, mutations and alternative splicing of the hOGG1 gene.

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Takehiko Nohmi

The Y-Family of DNA Polymerases

Primary mutagenicity screening of food additives currently used in Japan

The dinB Gene Encodes a Novel E. coli DNA Polymerase, DNA Pol IV, Involved in Mutagenesis

RecA-mediated cleavage activates UmuD for mutagenesis: mechanistic relationship between transcriptional derepression and posttranslational activation.

Genetic polymorphisms and alternative splicing of the hOGG1 gene, that is involved in the repair of 8-hydroxyguanine in damaged DNA

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