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  • Title: Spectrum of mutations induced by methyl and ethyl methanesulfonate at the hprt locus of normal and tag expressing Chinese hamster fibroblasts.
    Author: Klungland A, Laake K, Hoff E, Seeberg E.
    Journal: Carcinogenesis; 1995 Jun; 16(6):1281-5. PubMed ID: 7788844.
    Abstract:
    This work describes the isolation and characterization of methyl methanesulfonate (MMS) and ethyl methanesulfonate (EMS) induced 6-thioguanine-resistant mutants in normal and Escherichia coli tag gene expressing Chinese hamster fibroblast, RJKO, cells. It was previously shown that increased removal of 3-alkylated adenine, effected by 3-methyladenine DNA glycosylase I (Tag), reduces the frequencies of hprt mutations induced by alkylating agents which produce mostly N-alkylation (MMS and EMS) to half the normal rate. In order to identify which type of mutation is suppressed by increased 3-alkyladenine repair we have determined the DNA base sequence changes of the hprt cDNA in 61 independent MMS- and EMS-induced mutant clones. For both cell types and irrespective of the agent used, the majority of mutations were GC to AT transitions originating in the non-transcribed strand. Only 6/55 base substitutions occurred at AT base pairs: five AT to GC transitions and one AT to CG transversion. Six mutations were found to be deletions. These results indicate that 3-alkylated adenines in DNA are not directly premutagenic. The fact that the mutation frequency is reduced by increased 3-alkyladenine removal might be explained by postulating the existence in mammalian cells of an SOS-like response turned on by cytotoxic lesions like 3-alkyladenine, or, alternatively, that increased removal of 3-alkyladenine increases the number of single-strand breaks in DNA, which stalls DNA replication and allows a prolonged time for DNA repair by the alkyltransferase.
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