Two clustered 8-oxo-7,8-dihydroguanine (8-oxodG) lesions increase the point mutation frequency of 8-oxodG, but do not result in double strand breaks or deletions in Escherichia coli

doi:10.1093/nar/gkh911

Nucleic Acids Research 2004 32(19):5721-5731; doi:10.1093/nar/gkh911

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Published online 27 October 2004

Two clustered 8-oxo-7,8-dihydroguanine (8-oxodG) lesions increase the point mutation frequency of 8-oxodG, but do not result in double strand breaks or deletions in Escherichia coli

Svitlana Malyarchuk, Katherine L. Brame, Reneau Youngblood, Runhua Shi¹ and Lynn Harrison^*

Department of Molecular and Cellular Physiology and ¹ Department of Medicine and the Feist-Weiller Cancer Center, Louisiana Health Sciences Center, 1501 Kings Highway, Shreveport, LA 71130, USA

^* To whom correspondence should be addressed. Tel: +1 318-675-4213; Fax: +1 318-675-4217; Email: lclary{at}lsuhsc.edu

Received July 16, 2004; Revised September 5, 2004; Accepted October 8, 2004

Multiply damaged sites (MDSs) are generated in DNA by ionizingradiation. In vitro studies predict that base excision repairin cells will convert MDSs to lethal double strand breaks (DSBs)when two opposing base damages are situated $≥$ 2 bp apart. If thelesions are situated immediately 5' or 3' to each other, repairis predicted to occur sequentially due to inhibition of theDNA glycosylase by a single strand break repair intermediate.In this study, we examined how the distance between two opposinglesions alters the mutation frequency of an 8-oxodG in an MDS,and whether repair generates DSBs and deletions in bacteria.The 8-oxodG mutation frequency declined in MutY-deficient bacteriawhen the opposing 8-oxodG was 6 bp away, and was similar toa single 8-oxodG when the lesions were separated by 14 bp. However,the number of deletions detected for the MDSs was equivalentto the undamaged sequence. Using a separate assay, MDSs consistingof two 8-oxodG or an 8-oxodG opposite a uracil were not convertedto DSBs in the absence of DNA replication in wild-type and transcription-coupledrepair-deficient bacteria. This is the first study showing thatDSB-repair intermediates and deletions are not formed duringrepair of clustered 8-oxodGs in cells.

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