In vitro photosensitization by visible light in the presence of methylene blue (MB-light) produces lesions in M13mp18 lacZ phage DNA, the lethal and mutagenic potential of which was analyzed after transfection into various bacterial hosts. Mutagenesis was determined with a forward mutation assay using the lacZ gene of M13mp18 as a target. When, MB-light-treated double-stranded (ds) M13mp18 DNA was used to transfect wild-type cells which were not induced for SOS functions, a fivefold increase in mutation frequency was observed at 10% survival compared to that observed with untreated DNA. Mutation frequency obtained with MB-light-treated ds M13mp18 DNA was greater when transfected into the uvr A fpg-1 double mutant than that seen in uvr A, fpg-1, or umuC single mutants or in the wild-type. Sequence analysis shows that in the wild-type strain, MB-light treatment of ds M13mp18 DNA results mostly in single base substitutions. The most frequent base change is the GC-->TA transversion. MB-light treatment of single-stranded (ss) M13mp18 DNA also results in an increased mutation frequency after transfection into the wild-type strain, yielding mostly G-->T transversions. Our results show that MB-light-induced mutagenesis is at least partially independent of the induction of SOS functions in Escherichia coli. The mutation spectra suggest that 8-oxo-7,8-dihydroguanine is the major promutagenic lesion in DNA.